Department of Physics

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M.Sc. Physics (Material Science/Electronics/Theoretical physics) M.Sc. Electronics Ph.D.
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About Department

Since the establishment, department provide a creative and stimulation environment to students. Department offer the PG course in Theoretical Physics, Materials Science and Electronics. Course curriculum is designed as per UGC guidelines with the projects work in the last semester. The key research areas of the department are Crystal Growth, Theoretical, Condensed Matter Physics Digital communication, Thin Film and Electronic devices etc. Department inspires students to participate in summer and winter schools at TIFR, BARC, PRL etc. Department also regularly organized the popular talks on Nobel Prize in Physics, Popularization of science and on Theoretical Physics. The department has provided skilled manpower in physics and related fields. Many past students are presently serving in the state and national level institute, university and colleges indicates our credit in the scientific community and society.
M.Sc in Physics and Electronics Recently our syllabus is revised as per New Education Policy(NEP) guidelines and UGC . We are offering three elective subject choices to our students. Electives are in area of Theoretical Physics, Materials Science and Electronics. One skill based course offered at all semesters for this course. M.Sc. Electronics and Ph.D. Physics courses may revised in due time as per NEP and State Government norms.

Vision

Provides quality education which makes one ready to face the Challenges in the emerging “Knowledge Era”, To build foundation for excellence by igniting and nurturing young minds.

Mission

The Department provides a full spectra of courses coupled with mentoring and opportunities, The Departments provides courses that enhance their skills and their appreciation for Science, To encourage and guide graduate students and enable them to transform into an organized physicist with knowledge core competence, ethics, ability and right attitude.

▶ Department of Physics
Department of Physics Veer Narmad South Gujarat University
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📄 Prospectus for 2026–2027 📄 Placement Brochure 📄 Time Table M.Sc. Sem – 1 & 3 📄 Time Table M.Sc. SEM - 2 & 4

M.Sc. Physics (Material Science/Electronics/Theoretical physics)

M.Sc. Physics (Material Science/Electronics/Theoretical physics) is 2 years 4 semesters course

Download Syllabus Sem - I

Download Syllabus Sem - II

Download Syllabus Sem - III

Download Syllabus Sem - IV




Objective Of Program

The core objective of the MSc.-Physics programme is to prepare the students for teaching and research in the core and emerging areas of the discipline.

Program Outcome

PO1 : Fundamental Knowledge Enrichment :

The Students will obtain basic theoretical and Practical knowledge in Physics Sciences. They will be trained to complete tests like UGC-CSIR, NET, GSET, GATE etc.. Successfully. It also makes students capable of using core concepts of physics in conceptualization of domain specific viz Theoretical Physics, Material Science and Electronics.

PO2 : Critical Thinking Development :

The examination pattern for M.Sc. program Physics having the 30% weightage for problem and applications and 70% weightage given to theory. This concept develops the skills of critical thinking, program solving, evaluative learning of various techniques, and understanding the essence of the problem.

PO3 : Advanced Emerging Technology Awareness :

The Syllabus of this program consist of Advanced QM, Advance Materials science, Microelectronics and Microprocessor. So, the students avail the advance knowledge in their resign. Which enrich them through this knowledge of latest technologies that is being used in Industry as well as Research Institute. The continuous syllabi review adds value to the program for the outgoing students and make them ready to face challenging demands of the Industry.

PO4 : Advanced Tools Usage :

Computer laboratory are compulsory for all specification, so their soft skill are developed by programming. LCD project smart class room, PPT and Videos are used for regular teaching. This teaching helps them to apply the advanced tools to solve real world problems.

PO5 : Nurturing Project Planning and Management Capabilities :

The program trains students for designing and conceptualizing the software architecture, planning and managing the product development process of complex and live software projects. It also makes students understand the decision making for selection of appropriate project management capabilities.

PO6 : Real World Problem / Project Development :

Real world project provides the candidates exposure to work in the challenging and demanding environment of the industry. The project development training makes students employable and industry ready.

PO7 : Team Work and Leadership Development :

Trains students to work in a team and also to take leadership of the project management team.

Semester - I
Course Code Course Title Outcome Credit
PH-411 Mathematical Methods of Physics

CO1: At the end of the course, the students will be able to use different mathematical methods to study problems in non-linear sciences.
CO2: Understand the methods to ordinary differential equations. understand the methods to solve Nonlinear Schrodinger type equations
CO3: Uunderstand the concepts and application of solutions.

 4
PH-412 Classical Mechanics

CO1: The end of the course, the students will be able to understand.
CO2: The basic concepts on Classical Mechanics
CO3: The theorems relating to the nonlinear bodies.
CO4: The various aspects of dynamics and oscillations of bodies.

 4
PH-413 Measurement, Instrumentation and Experimental Planning

CO1: At the end of the course, the students will be able to acquire the knowledge about the different errors occurring during measurement.
CO2:Understand the principle behind the instrumentation for measurement.
CO3:Identify the various transducers involved in measurement.

 4
PH-414 General Electronics

CO1: At the end of the course, the students will be able to understand the fundamentals of working of semiconductor and special devices
CO2: Applications of electronic devices

 4
PH-415 PRACTICALS

CO1: At the end of the course, the students will be able to understand the fundamentals of working of semiconductor and special devices
CO2: Applications of electronic devices

 4
Semester - II
Course Code Course Title Outcome Credit
PH-421 QUANTUM MECHANICS - I

CO1: At the end of the course, the students will be able to understand the basics of quantum mechanics.
CO2:various physics concepts in the light of quantum mechanics.

 4
PH-422 Solid State Physics

CO1: At the end of the course, the students will be able to understand the basic concepts on properties of materials in solid state physics.
CO2: phenomenon of superconductivity and its properties.
CO3: different techniques used for synthesis and fabrication of nano-materials.

 4
PH-423 Classical Electrodynamics and Plasma Physics

CO1: At the end of the course work , the students have Knowledge of electrostatics and magneto statics explaining fundamental concepts, basic equations and self sufficient to develop the subject of electrodynamics.
CO2: To gain knowledge of electrodynamics for moving charge and radiating system.

 4
PH-424 Numerical Analysis, Computer Programming

CO1: Numerical methods & programming At the end of course, students will be able to understand some numerical methods to solve physical problems and simulate that problems by knowing some compiler languages.
CO2: At the end of the course, the students will be able to understand the basic concepts of numerical methods and programming

 4
PH-425 Practicals

CO1: At the end of the course, the students will be able to understand the fundamentals of working of semiconductor and special devices
CO2:Applications of electronic devices

 4
Semester - III
Course Code Course Title Outcome Credit
PH-531 QUANTUM MECHANICS - II

CO1: At the end of the course, the students will be able to understand the scattering and Perturbation theory.
CO2: Also understand the relativistic wave equations.

 4
PH-532 Nuclear and Particle Physics

CO1: Students have better understanding of theoretical aspects of nuclear structure models, nuclear interaction, nuclear decay and nuclear reactions.
CO2: They also learn about the structure and interaction of the sub-nuclear particles in quark models and the underlying fundamental symmetry properties.

 4
PH(E)-533 Physics of Semiconductor Devices

CO1: The syllabus provide an introduction to theory of Semiconductor Device.
CO2: The emphasis on vital understanding of both the operation of present day devices will be benefited of present day device will be benefited to further development of new Semiconductor device in the field.

 4
PH(E)-534 Microcontroller and its applications

CO1: Being Advance subject, Microcontroller and its application is introduced in the curriculum.
CO2: In the field of electronics & Instrumentation the microcontroller base circuits play important roll.
CO3: Therefore the employability of the student's in the Industry increases.

 4
PH(E)-535 Practical’s Practical’s

CO1: Some of the ‘Design, Build, and Test” type Electronic experiments are included in this lab to realise the theory of Electronics.
CO2:Programming part of the theory course PH(E)-534 (Microcontroller) learnt in the class room is practiced in this lab course.
CO3: A good hand on experience in “Electronic circuit design, Build and Test” is gained.

 4
PH(M)– 533 Crystal Growth & Characterizations

CO1: At the end of the course, the students will be able to get familiarized with various techniques involved in Crystal Growth.
CO2: At the end of the course, the students will be able to get familiarized to determine various theoretical parameters.

 4
PH(M)-534 Advanced Materials Science

CO1: The Course consist of civilization of materials to advanced materials like, smart materials, Quantum Dots, Spintronics, Ceramics, composites and macro molecules.
CO2: Nonmaterial , Synthesis of nonmaterial and advanced applications of materials are briefly explain.

 4
PH(M)-535 Practical’s

CO1: At the end of Performing material Practical’s students have ability to measurement conductivity crystal growth characterization like hardness etching etc.
CO2: Magnetic Proportion at material and aware of the non destructive technique of liquid Penetration method.

 4
PH(T)-533 Non-linear Dynamics and High-Performance-Computing

CO1: Most advanced packages and languages are learnt for simulation of Physics problem with theoretical aspects. This course also contains the parallel programming.
CO2: It is essential for all students of computing to understand the architecture and programming of parallel computing.

 4
PH(T)-534 Computational and Simulation methods in Physics

CO1: More advanced numerical techniques for solving physics problems are learnt and applied in computer simulation of physics problems to learn theoretical aspects and predictabilities.
CO2: students to handle larger simulation problems in physics.

 4
PH(T)-535 Practical’s

CO1: Some of the numerical techniques and simulation techniques learnt in the theory course PH(T)-534 are practiced in this lab course.
CO2: A good hand on experience in FORTRAN and C programming is gained.

 4
Semester - IV
Course Code Course Title Outcome Credit
PH- 541 Physics of Lasers and Lasers Applications

CO1: At the end of the course work, the student has to knowledge of the basic theory behind Laser Operation and Its properties throughout.
CO2: the treatment has been kept as simple as positive with some familiarity of electromagnetic theory and non-linear optics.

 4
PH-542 Atomic and Molecular Physics

CO1: The course presents unifies account of physics of atoms and molecules from a modern viewpoint.
CO2: At the end of the course, the students deal with of material on basic atomic physics, including atomic structure, the optical and X-ray spectra of atoms, the interaction of atom with electric and magnetic fields.

 4
PH(E)-543 MICRO ELECTRONICS

CO1: The course contains the advance topics of Microelectronics like, NMOS, CMOS, BIFET-BIMOS-BICMOS, ECL and CCD technology.
CO2: Syllabus also giving emphasis on architecture of memory devices likes PROM, EPROM, EEPROM.
CO3: Current sources multi loop feedback Amplifier, and Theory of High Frequency response of Amplifiers are briefly discuss.

 4
PH(E)- 544 Electronic Communication

CO1: The course provides excitement of the electronic communication field as well as background essential for advanced study in communication systems.
CO2: The practicing students will find it of service to update their knowledge in the field.

 4
PH(E) - 545 Practical

CO1: As part of this lab course, a full semester project is carried out on some Electronics related problem which is am electronic circuit.
CO2: The project in this lab. Includes system designing, PCB designing, using, construction and testing of the circuit.
CO3: Good training in planning and executing an Electronic project and technical skill development is the outcome.

 4
PH(M)-543 Properties of Materials

CO1: At the end of the course, the students will be able to understand the various methods involved in material characterization
CO2: At the end of the course, the students will be able to understand the importance of use of different instruments for material study.

 4
PH(M)-544 Techniques of Material Science

CO1: After the study of this paper students have capable to fundamental understanding of vacuum Technology and perspective of current vacuum application.
CO2: Also syllabus focused operation and selection of equipment for process Used in semiconductor devices, optical and related thin film technologies.

 4
PH(M) - 545 Practical

CO1: After Competition of Project Work student have knowledge scientific technique to work on advance and now growth.
CO2: Crystallization material and how to synthesis crystalline material and learn to skill about report writing.

 4
PH(T)-543 ADVANCED QUANTUM MECHANICS

CO1: At the end of the course the students will be able to understand the negativistic equations in central potential, symmentuios and application to many body systems.

 4
PH (T)-544 Group Theory and Quantum Field Theory

CO1: Discrete and continuous Symmetries in physics are learnt through group theoretical aspects and their applications in solving physics problems.
CO2:Fundamental aspects of quantum field theory and its application in understanding of fundamental interactions are also learnt in this course.

 4
PH(T)-545 Practical

CO1: As part of this lab course,upon completion of this course, students will be proficient in comprehensively studying physics problems through simulation using FORTRAN or C or Mathematica programming languages.
CO2: The project in this lab, Competence in designing, implementing, and evaluating simulation programs to analyze complex physics phenomena.
CO3: Ability to effectively communicate and present findings from the simulated study of physics problems using appropriate programming languages.

 4

Eligibility Criteria

(SC/ST- 35%, OPEN/SEBC-40%)
A candidate must have passed the Bachelor’s Degree examination in Science with English as compulsory subject.
A candidate who has obtained his/her Bachelor’s Degree with Physics as Principal subject shall be considered eligible for admission to M.Sc. Physics course.

Admission Details

All eligible candidates will be called for the counseling and admitted as per the university rules and merit of their graduation degree.

Reservation Policy

As per rules of university.

Fee Structure *

      Grant in Aid (GIA)             Higher Payment(HP)            Self Finance (SFI)    
Male           Rs. 6915/-             Rs. 21915/-                ---
Female         Rs. 4415/-             Rs. 19415/-

               ---
       

*Subject to Revision Periodically

M.Sc. Electronics

M.Sc. (Electronics) is 2 years 4 semesters course

Syllabus Download




Objective Of Program

The core objective of the MSc.- ELECTRONICS programme is to prepare the students for teaching and research in the core and emerging areas of the discipline.

Program Outcome

PO1 : Fundamental Knowledge Enrichment

The Students will obtain basic theoretical and Practical knowledge in ELECTRONICS Sciences. They will be trained to complete tests like UGC-CSIR, NET, GSET, GATE etc.. Successfully. It also makes students capable of using core concepts of ELECTRONICS.

PO2 : Critical Thinking Development

The examination pattern for M.Sc. program ELECTRONICS having the 30% weight age for problem and applications and 70% weightage given to theory. This concept develops the skills of critical thinking, program solving, evaluative learning of various techniques, and understanding the essence of the problem.

PO3 : Advanced Emerging Technology Awareness

The Syllabus of this program consist of Advanced QM, Advance, Microelectronics and Microprocessor. So, the students avail the advance knowledge in their resign. Which enrich them through this knowledge of latest technologies that is being used in Industry as well as Research Institute. The continuous syllabi review adds value to the program for the outgoing students and make them ready to face challenging demands of the Industry.

PO4 : Advanced Tools Usage

Computer laboratory are compulsory for all specification, so their soft skill are developed by programming. LCD project smart class room, PPT and Videos are used for regular teaching. This teaching helps them to apply the advanced tools to solve real world problems.

PO5 : Nurturing Project Planning and Management Capabilities

The program trains students for designing and conceptualizing the software architecture, planning and managing the product development process of complex and live software projects. It also makes students understand the decision making for selection of appropriate project management capabilities.

PO6 : Real World Problem / Project Development

Real world project provides the candidates exposure to work in the challenging and demanding environment of the industry. The project development training makes students employable and industry ready.

PO7 : Team Work and Leadership Development

Trains students to work in a team and also to take leadership of the project management team.

Intake

Grant in Aid (GIA) : 10
Higher Payment(HP) : 06
Self-finance (SFI) : 00

Program Duration

2 years

Semester - IV
Course Code Course Title Outcome Credit
EL - 541 Laser and its Applications

CO1: At the end of the course work, the student has to knowledge of the basic theory behind Laser Operation and Its properties throughout.
CO2:the treatment has been kept as simple as positive with some familiarity of electromagnetic theory and non-linear optics.

 4
EL- 542 Integrated Circuits Technology

CO1: The students learn about classification of Integrating circuits and how the IC’s are fabricated.
CO2:The students may also aware with basic steps of IC’s fabrication processes like Crystal Growth, Epitaxial growth, Oxidation Photo litho grapy diffusion and metallization.
CO3: The students are familiarize with IC fabrication methods for fabrication of BJT, FET, MOSFET and SMOS.
CO4: The students may aware with topical concept for IC’s, thay may also aware with different types of Bonding and packages for ICs

 4
EL-543 Analog & Digital Electronics

CO1: The course contains the advance topics of Microelectronics like, NMOS, CMOS, BIFET-BIMOS-BICMOS, ECL and CCD technology.
CO2:Syllabus also giving emphasis on architecture of memory devices likes PROM, EPROM, EEPROM.
CO3: Current sources multi loop feedback Amplifier, and Theory of High Frequency response of Amplifiers are briefly discuss.

 4
EL-543 Analog & Digital Electronics

CO1: The course contains the advance topics of Microelectronics like, NMOS, CMOS, BIFET-BIMOS-BICMOS, ECL and CCD technology.
CO2:Syllabus also giving emphasis on architecture of memory devices likes PROM, EPROM, EEPROM.
CO3: Current sources multi loop feedback Amplifier, and Theory of High Frequency response of Amplifiers are briefly discuss.

 4
EL- 544 Electronic Communication – II

CO1: At the end of the course work, it is to extend & Update of the Knowledge of the students to more modern Digital Communication Systems, terrestrial and microwave radio communication systems and satellite communication systems.
CO2:An attempt is mode to know the fundamental of telephone Switching traffic load & service grade.

 4
EL- 545 Practicals

CO1: As part of this lab course, a full semester project is carried out on some Electronics related problem which is am electronic circuit.
CO2:The project in this lab. Includes system designing, PCB designing, using, construction and testing of the circuit.
CO3: Good training in planning and executing an Electronic project and technical skill development is the outcome.

 4
Semester - III
Course Code Course Title Outcome Credit
EL - 531 Microwave

CO1:The students will learn about basic devices used for production and applications of Microwave frequencies.
CO2:The Devices like Tunnel Diode, MIS diode, IMPATT diode, TRAPATT diode, BARITT diode.
CO3: Students will learn about Microwave transmission lines, Smith chart, Impedance matching, Couplers and Isolators.
CO4: The students may aware with basics of Reflex klystrons, and Helix travelling wave cubes and Agile coaxial magnetrons.

 4
EL- 532 Optoelectronics

CO1:At the end of the Course work, it Provides the Students with a general understanding of the Characteristics of Optical Fibers and how they are used in a telecommunication system courses in Communication theory would be helpful for gaining a full understanding of the material.
CO2:The course Progresses Systematically from descriptions & the individual elements of System designs and ends with discussion of measurement techniques for evaluating components & systems

 4
EL-533 Solid State Devices

CO1:The syllabus provide an introduction to theory of Semiconductor Device.
CO2:The emphasis on vital understanding of both the operation of present day devices will be benefited of present day device will be benefited to further development of new Semiconductor device in the field.

 4
EL- 534 Instrumentation

CO1:At the end & the course , Students are upload in the area of measurement and indirectly allied to that of laboratory teaching.
CO2:The primary empress is on the measurement of Physical & mechanical variables encountered in experimental investigations & indusial processes.
CO3: The Students also need to Put into action concepts of accuracy and Precision when diagnosing Problems and maintaining medical and laboratory equipment

 4
EL-535 Practicals

CO1:At the end of the Course work ,an attempt has been made to introduce the concepts of modern digital techniques and IC, for realization of various functions.
CO2:The Students are aware of experiments related with Microware & C-programming strong emphasis is placed on basic experiments of Electronics communication.

 4
Semester - II
Course Code Course Title Outcome Credit
EL - 421 Digital Signal Processing

CO1: The students will learn basic Principles of Digital Signal processing and roll of Signal functions in signal processing.
CO2:Student’s may aware with system properties and basic of Fourier, Laplace and other transformations and basic terms associated with properties and transformation.
CO3: The basic introduction of Discrete, Fourier, Transformations (DFT), DDFT, IDFT and their utility in digital filter designing.
CO4:The Applications of Digital signal processing are briefly cover in this syllabus. So, students learn and thing about their present and future applications.

 4
EL- 422 Op Amp & Circuit Designing

CO1: The Student Will relays Practical Application or Operational They Learn the basic term Associated with op Amp to.
CO2:the Student may Premier general linear applications of Op Amp this concept may help them to think about special Application about Op Amp
CO3: The student may understand the basic design concept of the use of Op Amp single and dual power supply they may also learn about the use of feedback circuit Op Amp
CO4:A student may aware with basic idea of interfacing of and Op Amp for ADC & DAC Circuit.

 4
EL-423 Electromagnetic Fields and Waves

CO1: At the end of the course, the students will be able to understand the basic concepts nucleus and its properties.
CO2:To gain the knowledge on elementary particles.

 4
EL- 424 Electronic Communication-I

CO1: The course provides excitement of the electronic communication field as well as background essential for advanced study in communication systems.
CO2:The practicing students will find it of service to update their knowledge in the field.

 4
EL-425 Practicals

CO1: At the end of the Course work, the students are familiar about the design and analysis of all the Basic semiconductor Circuit Apart from discrete Component.
CO2:Circuits, the design procedure for using IC operational amplifiers in various circuits is discussed.
CO3: Students are aware of operation of transducers.

 4
Semester - I
Course Code Course Title Outcome Credit
EL-411 Mathematical Methods

CO1: At the end of the course, the students will be able to use different mathematical methods to study problems in non-linear sciences.
CO2: Understand the methods to ordinary differential equations. understand the methods to solve Nonlinear Schrodinger type equations
CO3: Uunderstand the concepts and application of solutions.

 4
EL- 412 Microcontroller and Applications

CO1:Being Advance subject, Microcontroller and its application is introduced in the curriculum.
CO2: In the field of electronics & Instrumentation the micro controller base circuits play important roll.
CO3: Therefore the employability of the student's in the Industry increases.

 4
EL-413 Measurement, Instrumentation and Experimental Planning

CO1: At the end of the course, the students will be able to acquire the knowledge about the different errors occurring during measurement.
CO2: Understand the principle behind the instrumentation for measurement.
CO3: Identify the various transducers involved in measurement .

 4
EL- 414 C and CAD for Electronics

CO1: At the end of the course, the students will learn higher level language programming and their basic.
CO2: The skill to write the programming using IF, FOR, WHILE and DO statement and there are aware global automatic static variables.
CO3: Student’s do best exercise for simulation for electronics circuit using simulation program per Integrated Circuit Enchases (Spice)

 4
EL-415 Practical’s

CO1: At the end of course work, students are update about skills of measurement of various electronic Components, soldering , Circuit layout etc.
CO2: The design approach is a simple step-by-step Procedure in which the student knows exactly why each Component Value is Selected.

 4
EL-415 Practical’s

CO1: At the end of course work, students are update about skills of measurement of various electronic Components, soldering , Circuit layout etc.
CO2: The design approach is a simple step-by-step Procedure in which the student knows exactly why each Component Value is Selected.

 4

Eligibility Criteria

(SC/ST- 35%, OPEN/SEBC-40%)
A candidate must have passed the Bachelor’s Degree examination in Science with English as compulsory subject.
A candidate who has obtained his/her Bachelor’s Degree with Electronics as principal subject and Physics as subsidiary subject shall be considered eligible for admission to M.Sc. Electronics course.

Admission Details

All eligible candidates will be called for the counseling and admitted as per the university rules and merit of their graduation degree.

Reservation Policy

As per rules of university.

Fee Structure *

 
Grant in Aid (GIA)
Higher Payment(HP)
Self Finance (SFI)
Male Rs. 6915/- Rs. 21915/- ---
Female Rs. 4415/- Rs. 19415/- ---

*Subject to Revision Periodically

Ph.D.

Department of Physics offers Ph.D. programme in the subject of Physics.

Ph.D. Syllabus Download




Fee Structure *

*Subject to Revision Periodically

Vibrant and Conducive Atmosphere for Research







Details since 2015

  1. EXPERIMENTAL STUDY OF PARAMETERS INFLUENCING DISSOLUTION KINETICS OF NATURALLY GROWN AND SURGICALLY REMOVED KIDNEY STONE,P.P. VORA, K.C.PORIA,,INTERNATIONAL JOURNAL OF SCIENTIFIC RESEARCH,4,8,55-57,01-08-2015
  2. DETERMINATION OF CHEMICAL COMPONENTS OF KIDNEY STONE BY THE STUDY OF ENERGY DISPERSIVE X-RAY SPECTROSCOPY,P.P. VORA, K.C.PORIA,,INTERNATIONAL JOURNAL OF SCIENTIFIC RESEARCH,5,7,50-52,01-07-2016
  3. EXPERIMENTAL STUDY AND STATISTICAL ANALYSIS OF PARAMETERS INFLUENCING DISSOLUTION KINETICS OF NATURALLY GROWN AND SURGICALLY REMOVED KIDNEY STONE,P.P. VORA, K.C.PORIA, V. BUCH ,INTERNATIONAL JOURNAL OF SCIENTIFIC RESEARCH,5,7,48-49,01-07-2016
  4. GROWTH AND MECHANICAL CHARACTERISATION OF THIOUREA SINGLE CRYSTALS GROWN BY INEXPENSIVE SLOW EVOPARATION METHOD,MINAL N. VANSIA,KISHOR C. PORIA,INTERNATIONAL JOURNAL FOR RESEARCH IN APPLIED SCIENCE AND ENGINEERING TECHNOLOGY,5,IX,,01-11-2017
  5. GROWTH OF BISMUTH TRISULPHIDE (Bi2S3) SINGLE CRYSTALS USING HORIZONTAL ZONE LEVELLING AND GEL METHODS,KISHOR C. PORIA,KRISHNA LEKINWALA,INTERNATIONAL JOURNAL FOR RESEARCH IN APPLIED SCIENCE & ENGINEERING TECHNOLOGY (IJRASET) ,6,VII,594-597,01-07-2018
  6. GROWTH AND CALCULATIONS OF KINETIC AND THERMODYNAMIC PARAMETERS FOR THIOUREA SINGLE CRYSTALS,MINAL N VANSIA ,KISHOR C. PORIA,INTERNATIONAL JOURNAL FOR RESEARCH IN APPLIED SCIENCE & ENGINEERING TECHNOLOGY (IJRASET) ,5,IX,3059-3064,01-11-2018
  7. GROWTH AND MECHANICAL CHRACTERISATION OF THIOUREA SINGLE CRYSTALS GROWN BY INEXPENSIVE SLOW EVAPORATION METHOD,MINAL N VANSIA ,KISHOR C. PORIA,INTERNATIONAL JOURNAL FOR RESEARCH IN APPLIED SCIENCE & ENGINEERING TECHNOLOGY (IJRASET),5,IX,1345-1347,01-11-2018
  8. GROWTH,X-RAYS DIFFRACTION (XRD) ,ULTRA-VIOLET AND FTIR SPECTROSCOPIC STUDIES OF THIOUREA SINGLE CRYSTALS,MINAL N VANSIA ,KISHOR C. PORIA,INTERNATIONAL JOURNAL FOR RESEARCH IN APPLIED SCIENCE & ENGINEERING TECHNOLOGY (IJRASET),5,IX,438-441, 01-11-2018
  9. GROWTH AND SECOND HARMONIC GENERATION (SHG) STUDIES OF METAL DOPED THIOUREA SINGLE CRUSTALS,ARVIND R. BAJAJ,K.C.PORIA ,INTERNATIONAL JOURNAL OF RESEARCH AND ANALYTICAL REVIEWS (IJRAR),5,4,290-295,01-12-2018
  10. Study of Physical Characteristic of Zinc Selenide Thin Film,H. N Desai, J. M. Dhimmar, B. P. Modi,International Journal of Engineering Research & Technology (IJERT),04,05,1132-1136,26-05-2015
  11. Capacitance and conduction frequency characteristics of In-pSi schottky Barrier Diode,J. M. Dhimmar, H.N.Desai, B. P. Modi,AIP Conference Proceeding,1665,1,080012-1-3,25-06-2015
  12. Study of Linear and Non-linear Optical Parameters of Zinc Selenide Thin Film,H. N Desai, J. M. Dhimmar, B. P. Modi,International Journal of Engineering Research and Application (IJERA),05,06,117-122,30-06-2015
  13. A study of photo-response and photoelectrical properties of Cadmium Telluride thin film,H N Desai, J M Dhimmar, B P Modi,International Journal of light and electron optic (OPTIK),127,16,6377-6383,27-04-2016
  14. Determination of Dispersion Parameters of Thermally Deposited CdTe Thin Film,J M Dhimmar, H N Desai, B P Modi,AIP Conference Proceeding,1731,1,080024-1-3,24-05-2016
  15. The Effect of Interface Density Distribution and Series Resistance on Electrical Behaviour of Schottky Diode,J M Dhimmar, H N Desai, B P Modi,Material Today: Proceeding,03,06,1658-1665,02-06-2016
  16. Optical and Dispersion Analysis of Zinc Selenide Thin Film,H N Desai, J M Dhimmar, B P Modi,Material Today: Proceeding,03,06,1650-1657,02-06-2016
  17. Analysis of the Inhomogenous Barrier in In/ P-Si Schottky Contact and Modified Richardson Plot ,J M Dhimmar, H N Desai, B P Modi,Journal of Nano and Electronic Physics,08,02,1-6,21-06-2016
  18. Structural and Optical Analysis of Grown Thiorea and Urea- Thiorea mixed Crystals,S P Sikligar, H N Desai, J M Dhimmar, B P Modi,Proceedings of National seminar on Advanced Trends in Material Science,,,46-51,28-02-2017
  19. Growth and characterization of In0.6 Se0.4 Crystals,P B Patel,H N Desai, J M Dhimmar, B P Modi,AIP Conference Proceeding,1832,1,100007-1-3,23-05-2017
  20. A study on micro-structural and optical parameters of InxSe1-x thin film,P B Patel,H N Desai, J M Dhimmar, B P Modi,AIP Conference Proceeding,1942,1,080014-1-4,10-04-2018
  21. X-RAY Analysis of InxSe1-x Crystals by Schrrer-, Willamson-Hall and Size -Strain Plot Methods.,P B Patel,H N Desai, J M Dhimmar, B P Modi,i-manager’s Journal on Material Science,06,03,34-42,02-12-2018
  22. Micro-Structural and Thermoelectric Characterization of Zinc-Doped In0.6Se0.4 Crystal Grown by Direct Vapour Transport Method,P B Patel, H N Desai, J M Dhimmar, B P Modi,Semiconductors,54,8,923-928,10-04-2020
  23. Approaching new photo-electrics: CdTe nano crystallite thin film,H N Desai, P B Patel,J M Dhimmar, B P Modi,Solid State Communications,313,5,1-5,11-04-2020
  24. A study of photoconductivity characterization of cadmium telluride thin film,H N Desai, P B Patel,J M Dhimmar, B P Modi,AIP Conference Proceeding,2265,1,030258-1-4,05-11-2020
  25. The advancement of compelling Indium Selenide: synthesis, structural studies, optical properties and photoelectrical applications,P B Patel,J M Dhimmar, B P Modi, H N Desai,Journal of Materials Science: Materials in Electronics,32,,1032-1041,25-11-2020
  26. Synthesis and Characterization of Direct Vapour Transport Grown Sb2Se3 Crystals,H M Patel, P B Patel, H N Desai, S P Sikligar, J M Dhimmar , B P Modi,Materials Today: Proceedings,47 Part 2,,583-586,16-12-2020
  27. EDAX and XRD studies of pure and doped Barium Nitrate crystal were grown by Slow Evaporation Technique.,Vanish H. Tandel, I.B. Patel, Anil S. Pillai and Rojeena George,International Journal of Advance Research in Science and Engineering., 7, 4,15-19,04/04/2018
  28. Growth, FTIR And Mechanical Studies Of Gel Grown Magnesium Chloride Doped Tris Thiourea Zinc Sulfate (ZTS) NLO Crystal,Kiran T Rathod, I B Patel and Atul m Shah,International Journal Of Creative Research Thoughts,6,,593-599,01/04/2018
  29. Effect of Composition on Work Hardening Coefficient of Bismuth-Lead Binary alloy,Ketki Mistry, I. B Patel and, A.H. Prajapati,International Journal of Chemical, Nuclear, Materials and Metallurgical Engineering,9,2,303-306,01/10/2015
  30. Improvement of Mechanical Strength by doping Sodium Sulfate in Zinc(tris) Thiourea Sulfate (ZTS) Crystal.,Kiran T Rathod, I B Patel and Rajiv P Shah,International Journal for Science and Advance Research in Technology (IJSART),1,10,197-199,01/10/2015
  31. Growth and Characterization of Pure and Potessium Sulfate- Doped Zinc (tris) Thiourea Sulfate(ZTS) Singe Crystals.,Kiran T Rathod, I B Patel, C.F. Desai and HozefaTinwala,International Journal of Engineering Research & Technology (IJERT),4,10,503-507,01/10/2015
  32. Smart Materials [SMS] for Today’s Smart Cities: The Dawn of a New smart ERA,TejalRaval, Sagar Mistry and I. B. Patel,International Journal of Pure and Applied Research in Engineering and Technology,4,5,82-98,01/01/2016
  33. Study of activation energy and thermodynamic parameters of bismuth sulfide by thermogravimetric analysis,Sneha I. Solanki and I.B. Patel,Invertis Journal of Renewable Energy,7,1,35-40,01/05/2017
  34. Study of Thermal Properties of ZTS Crystal Grown by Gel Technique,I. B. Patel, Druvi K. Vaghela, Kiran T Rathod and Vanish Tandel,International Journal of Innovative Research and Advanced Studies (IJIRAS),4,,210-212,01/05/2017
  35. Structural and optical Studies of Barium Nitrate (BN) Crystal Grown by Slow Evaporation (SE) Technique,Vanish H. Tandel, I. B. Patel and Hitesh B Patel,International Journal for Science and Advanced Research in Technology.,2,9,128-130,01/09/2016
  36. Synthesis of Bismuth-Tin Alloys by Zone Melting Method,A.S. Pillai, M.H. Mangrola and I. B. Patel,International Journal of Advanced Technology in Engineering and Science,4,1,65-68,01/05/2016
  37. Influence Studies of Doping on FTIR and Thermogravimetric Analysis of Barium Nitrate Crystals,Vanish H. Tandel, I.B. Patel, A.M. Shah and S. A Suthar,Material Science Research India,15,1,1-10,01/02/2018
  38. Qualitative Studies of Zinc Oxide (ZnO) Nanoparticles grown by Hydrothermal Technique,Neel A. Patel and I.B. Patel,International Journal of Research Culture Society,2,1,11-13,31/01/2018
  39. Characterization of Hydroxyapatite Synthesized by Wet Chemical Precipitation,K.A. Mistry, Z.V. Fojdar and I.B. Patel,International Journal of Research Culture Society,1,10,10-13,01/12/2017
  40. Raman Spectroscopic, Structural and Thermal studies of Barium Nitrate crystal grown by Slow Evaporation Technique,Vanish H. Tandel , I.B. Patel and Anil S. Pillai,International Journal of Research Culture Society,1,8,87-88,30/10/2017
  41. Influence of Bismuth Dopants on the Microstructure of Tin Metal,A.S. Pillai, M.H. Mangrola and I. B. Patel,International Journal of Advanced Research in Science and Engineering,6,7,72-77,07/07/2017
  42. Fabrication of NITINOL Nanoparticle using pulsed laser ablation,TejalRaval and I. B. Patel,International Journal of Creative Research Thoughts Manage by IJPUB www.ijpub.org.,6,2,167-170,01/04/2018
  43. EDX, XRD, SEM, FTIR of Hydroxyapatite Synthesized by Wet Chemical Precipitation,Ketki Mistry, Z.V. Fojdar and I. B Patel,Knowledge Consortium of Gujarat Department of Higher Education -Government of Gujarat Journal of Science,1,20,1-7,01/04/2019
  44. Highly Biocompatible Porous NiTi Alloys,TejalRaval and I. B. Patel,International Journal of Fundamental Physical Science (IJFPS),10,1,8-11,01/03/2020
  45. Study of BaCl doped ZTS Crystals Grown by Gel Method,Kiran T. Rathod, I.B. Patel, Neel Patel and Vikram L Bharat,Journal of Nano and Electronics Physics,12 No 2,,2,2036-2039,25/04/2020
  46. Structural and electrical properties of sodium bismuth titanate prepared by solid state reaction method,Hetal. D. Mawani, Nipa. M. Shastri, M. H. Mangrola, and V. G. Joshi,AIP Conference Proceedings 2220, 140055 (2020),,,140055-1-5,05/05/2020
  47. Characterization of barium strontium titanate BaxSr1-xTiO3 (with x=0.5 and x=0.7) synthesized by a solid state reaction method,Nipa M. Shastri, Krishna J. Joshi, M. H. Mangrola, and V. G. Joshi,Conference Proceedings 2220, 020094 (2020),,,020094-1-6,05/05/2020
  48. Optical and Gas sensing properties of BaxSr1-xTiO3 (with x=0.5 and x=0.7) thin films grown using Pulse Laser Deposition,Nipa M. Shastri,*, Adhish V. Raval,*, V.G. Joshi,IOP Conf. Series: Materials Science and Engineering 814 (2020) 012036,,,1 to 6,31/12/2020
  49. Structural properties and Doping effects of ferroelectric ceramics (Na0.2Bi0.3Zr0.5) TiO2,Krishna G Soni1, M. H. Mangrola2, V. G. Joshi1,Materials Today: ICMPC_ 2018 Proceedings 5 (2018) 17873–17881,5,9,17873–81,03/10/2018
  50. Structural and Electrical Properties of Nanocrystalline Barium Strontium Titanate,Nisha D. Patel1, M. H. Mangrola2, Krishna G. Soni3, V. G. Joshi1,Materials Today: ICMPC 2016 Proceedings 4 (2017) 3842–3851,4,2,3842-3851,28/04/2017
  51. Impendence and Modulus Spectroscopy Of (Na0.2Bi0.3Zr0.5) TiO2 lead-free ceramics,Krishna G Sonia M.H.Mangrola V.G.Joshia,Materials Today: ICMPC_ 2018 Proceedings 5 (2018) 17873–17881,5,9,17882–88,03/10/2018
  52. Brine Resource Management through Wireless Sensor Network in Solar Evaporation Type Salt Manufacturing Process,Rameshchandra Makavana, Vibhutikumar Joshi, Hiteshkumar Lad,International Journal of Research in Electronics and Computer Engineering (IJRECE),6,4 (Version 1),116-120,31/12/2018
  53. BRINE EVAPORATION RATE PARAMETERS MONITORING USING WIRELESS EMBEDDED SYSTEM,Rameshchandra D. Makavana*1., Vibhutikumar G. Joshi2 and Hiteshkumar J. Lad3,International Journal of Recent Scientific Research,8,8,19622-25,31/08/2017
  54. Natural Evaporation Type Salt Manufacturing Process Resource Management using Distributed Embedded System,Rameshchandra Makavana, Vibhutikumar Joshi, Hiteshkumar Lad,International Journal of Computer Applications,117,23,33-36,31/05/2015
  55. Cloud-based Portable and Cost-Effective Particulate Matters Concentration Estimation System,Hiral M. Joshi, Hiteshkumar Lad, Vibhutikumar Joshi,IEEE Explore- 4th International Conference on Electronics, Communication and Aerospace Technology (ICECA)-2020,,,549-553,28/12/2020
  56. Simulation for Brine Evaporation Parameters Acquired using Distributed Embedded System and Seepage Estimation,Rameshchandra Makavana, Vibhutikumar Joshi, Hiteshkumar Lad,IEEE-Explore- 2018 Second International Conference on Inventive Communication and Computational Technologies (ICICCT)-2018,,,337-340,27/09/2018
  57. Hybrid message conversion technique to reduce jitter in CAN based distributed embedded system,Hiteshkumar Lad, Vibhutikumar Joshi,IEEE Explor- 2014 2nd International Conference on Emerging Technology Trends in Electronics, Communication and Networking-2014,,,305-310,19/02/2015
  58. Irrigation control system using distributed embedded system,Hiteshkumar Lad, Vibhutikumar Joshi,IEEE Explore-International Conference on Contemporary Computing and Informatics (IC3I)-2014,,,1336-1339,26/01/2015
  59. Multi-coded EX-OR masking technique to reduce message length variation for CAN based distributed embedded system,Hiteshkumar Lad, Vibhutikumar Joshi,IEEE Explore- International Conference on Advances in Electronics Computers and Communications-2014,,,349-353,08/01/2015
  60. DRC Protocol for the Response Time Reduction in CAN based Distributed Embedded System,Hiteshkumar Lad, Vibhutikumar Joshi,International Journal of Computer Applications,142,13,16 - 20,31/05/2016
  61. Bridge Software Between Zigbee and CAN Protocols for Distributed Embedded System,Hiteshkumar Lad, Vibhutikumar Joshi,Proceedings of the International Conference on Intelligent Systems and Signal Processing, Advances in Intelligent Systems and Computing-ISSP-2017, 671,,103-111,19/01/2018
  62. Complex impedance spectroscopy of lead free barium strontium titanate ceramics synthesized by solid state reaction method,Nipa M. Shastri, A. V. Raval, M. H. Mangrola, and V. G. Joshi,Advanced Materials and Radiation Physics (AMRP-2020) Conference Proceedings,3252,1,020041-1-5,05/08/2021
  63. Optoelectronic properties of 2D heterojunction ZrO2– MoS2 material using first-principles calculations,V.R.Patel, Abhishek Patel, Yogesh Sonvane and P.B.Thakor,Solid State Communications ,114358,-,334-335,2021
  64. Hydrogenation and oxidation enhanced the thermoelectric performance of Si2BN monolayer,H. R. Mahida, Deobrat Singh, Yogesh Sonvane, Sanjeev K. Gupta, P. B. Thakor and Rajeev Ahuja,New Journal of Chemistry ,45,8,3892-3900,2021
  65. Structural and electrical properties of TiO2 monolayers using first-principle’s calculations,V.R.Patel, Yogesh Sonvane and P.B.Thakor,Materialsr Today: Proceedings ,47,2,563-566,2021
  66. Impact of stacking on the optoelectronic properties of 2D ZrS2/GaS heterostructure,Abhishek Patel, DeobratSingh, Yogesh Sonvane, P.B.Thakor and Rajeev Ahuja,Materialsr Today: Proceedings ,47,2,526-528,2021
  67. Effect of passivity on ultrathin Si nanowire: A density functional approach,P.H.Jariwala, Y.A.Sonavane and P.B.Thakor,Materialsr Today: Proceedings ,47,2,559-562,2021
  68. 2D MgF2 nanosheet as a promising candidate for thermoelectric material,H.R.Mahida, Deobrat Singh, Yogesh Sonvane, Rajeev Ahuja and P.B.Thakor,Materialsr Today: Proceedings ,47,2,555-558,2021
  69. Strain dependent electronic transport of pristine Si and Ge nanowires,P.H.Jariwala, Y.A.Sonavane, P.B.Thakor and Sanjeev K.Gupta,Computational materials Science ,188,-,110181,2020
  70. High thermoelectric performance in two dimensional Janus monolayer material WS-X (X=Se, Te),Abhishek Patel, Deobrat Singh, Yogesh Sonvane, P. B. Thakor and Rajeev Ahuja,ACS Applied Materials & Interfaces ,12,-,46212-46219,2020
  71. Bulk and monolayer As2S3 as promising thermoelectric material with high conversion performance,Abhishek Patel, Deobrat Singh, Yogesh Sonvane, P. B. Thakor and Rajeev Ahuja,Computational materials Science ,183,-,109913,2020
  72. The influence of edge structure on the optoelectronic properties of Si2BN quantum dot,H.R.Mahida, Deobrat Singh, Yogesh Sonvane, P.B.Thakor, Rajeev Ahuja and Sanjeev Gupta,Journal of Applied Physics Physics ,126,-,233104,2019
  73. Structural and electrical properties of CeO2 monolayers using first-principles calculations,V.R. Patel, Radha N. Somaiya, Shivam Kansara, Deobrat Singh, Nishant Prajapati,Yogesh Sonvane, P.B. Thakor and Sanjeev K. Gupta,Solid State Communications ,307,-,113801,2019
  74. Investigation of electronic transport properties of lanthanides in liquid phase,H. P. Patel, Yogesh Sonvane and P. B. Thakor,Physics and Chemistry of Liquids ,-,-,790-800,2018
  75. Structural, electronic, mechanical and quantum transport of ultrathin gold nanowire: A density functional approach,P.H. Jariwala, Sanjeev K. Gupta, Y.A. Sonvane and P.B. Thakor ,Superlattices and Microstructures ,106,-,206-215,2017
  76. MgF2 monolayer as an anti-reflecting material,H.R. Mahida, Deobrat Singh, Yogesh Sonvane, Sanjeev K. Gupta and P. B. Thakor ,Solid State Communications ,252,-,22-28,2017
  77. Atomic transport properties of liquid gallium and indium, Physics and Chemistry of Liquids,A. V. Prajapati, Yogesh Sonvane and P. B. Thakor ,Physics and Chemistry of Liquids ,55,5,570-578,2017
  78. Thermal Conductivity and Thermoelectric Power of Some Transition Metals in Liquid Phase,Y.A. Sonvane, P. B. Thakor, Deobrat Singh & Shivam Kansara. ,Advanced Science Letters ,22,4,3944-3947,2016
  79. Comparative study of electrical transport properties of liquid semiconductors – a theoretical approach,A. V. Prajapati, Y. A. Sonvane, P. B. Thakor and H. P. Patel ,Physics and Chemistry of Liquids ,-,-,-,2016
  80. Vibrational Properties of Zr–Ni Metallic Glasses,DeobratSingh, Yogesh Sonvane and P.B.Thakor ,Materials Today: Proceedings ,3,9,3137-3143,2016
  81. Influence of Vacancy and Adatom Defects on the Optoelectronic Properties of Monolayer GeS,Abhishek Patel, Deobrat Singh, Yogesh Sonvane, P. B. Thakor and Rajeev Ahuja,AIP Conference Proceedings,2352,1,020025,2021
  82. Electronic and optical properties of a structural defect in 2D MgF2 monolayer,H.R.Mahida, Deobrat Singh,Pritam Kumar Panda, Yogesh Sonvane, P. B.Thakor and Rajeev Ahuja,AIP Conference Proceedings,2220,1,100008,2020
  83. Structural and electrical properties of ultrathin SiXC (X = 4, 5, 6) nanowires: A first principles calculation,P.H. Jariwala, Sanjeev K. Gupta, Y.A. Sonvane and P. B. Thakor,AIP Conference Proceedings,2220,1,100007,2020
  84. Effect of atomic order on the characteristic of SiGe nanowire,P.H. Jariwala, Sanjeev K. Gupta, Y.A. Sonvane and P.B. Thakor,AIP Conference Proceedings,2142,1,110002,2019
  85. Diameter dependency of characteristics of ultrathin Si nanowires,P.H. Jariwala, Sanjeev K. Gupta, Y.A. Sonvane and P.B. Thakor,AIP Conference Proceedings,2100,1,020143,2019
  86. Electronic transport properties of 4f shell elements of liquid metal using hard sphere Yukawa system,H.P. Patel, Y.A. Sonvane and P.B. Thakor,AIP Conference Proceedings,1951,1,030021,2018
  87. Investigation of electronic transport properties of some liquid transition metals,H.P. Patel, Y.A. Sonvane and P.B. Thakor,AIP Conference Proceedings,1942,1,110047,2018
  88. Structure factor and radial distribution function of some liquid lanthanides using charged hard sphere,H.P. Patel, Y.A. Sonvane and P. B. Thakor,AIP Conference Proceedings,1832,1,090036,2017
  89. Temperature dependent electrical resistivity of liquid Sn,A.V. Prajapati, Y.A. Sonvane, H.P. Patel, and P. B. Thakor,AIP Conference Proceedings,1731,1,120016,2016
  90. First-principles study of structural & electronic properties of pyramidal silicon nanowire,P.H. Jariwala, Deobrat Singh, Y.A. Sonvane,Sanjeev K. Gupta, and P.B. Thakor,AIP Conference Proceedings,1731,1,090042,2016
  91. Mechanical properties of 4d transition metals in molten state,Deobrat Singh, Y.A. Sonvane,and P. B. Thakor,AIP Conference Proceedings,1728,1,020408,2016
  92. Temperature dependent electrical resistivity of gallium and antimony in a liquid form,A.V. Prajapati, Y.A. Sonvane,and P. B. Thakor,AIP Conference Proceedings,1728,1,020698,2016
  93. Study of Physical Characteristic of Zinc Selenide Thin Film,H. N Desai, J M Dhimmar, B. P. Modi,International Journal of Engineering Research & Technology (IJERT),04,05,1132-1136,26-05-2015
  94. Capacitance and conduction frequency characteristics of In-pSi Schottky Barrier Diode,J M Dhimmar, H.N.Desai, B. P. Modi,AIP Conference Proceeding,1665,1,080012-1-3,25-06-2015
  95. Study of Linear and Non-linear Optical Parameters of Zinc Selenide Thin Film,H. N Desai, J M Dhimmar, B. P. Modi,International Journal of Engineering Research and Application (IJERA),05,06,117-122,30-06-2015
  96. A study of photo-response and photoelectrical properties of Cadmium Telluride thin film,H N Desai, J M Dhimmar, B P Modi,International Journal of light and electron optic (OPTIK),127,16,6377-6383,27-04-2016
  97. Determination of Dispersion Parameters of Thermally Deposited CdTe Thin Film,J M Dhimmar, H N Desai, B P Modi,AIP Conference Proceeding,1731,1,080024-1-3,24-05-2016
  98. The Effect of Interface Density Distribution and Series Resistance on Electrical Behaviour of Schottky Diode,J M Dhimmar, H N Desai, B P Modi,Material Today: Proceeding,03,06,1658-1665,02-06-2016
  99. Optical and Dispersion Analysis of Zinc Selenide Thin Film,H N Desai, J M Dhimmar, B P Modi,Material Today: Proceeding,03,06,1650-1657,02-06-2016
  100. Analysis of the Inhomogenous Barrier in In/ P-Si Schottky Contact and Modified Richardson Plot,J M Dhimmar, H N Desai, B P Modi,Journal of Nano and Electronic Physics,08,02,1-6,21-06-2016
  101. Structural and optical analysis of grown Thiourea and Urea- Thiourea mixed crystals,S P Sikligar, H N Desai, J M Dhimmar, B P Modi,Proceedings of National seminar on Advanced Trends in Material Science,,,46-51,28-02-2017
  102. Growth and characterization of In0.6 Se0.4 Crystals,P B Patel, H N Desai, J M Dhimmar, B P Modi,AIP Conference Proceeding,1832,1,100007-1-3,23-05-2017
  103. A study on micro-structural and optical parameters of InxSe1-x thin film,P B Patel, H N Desai, J M Dhimmar, B P Modi,AIP Conference Proceeding,1942,1,080014-1-4,10-04-2018
  104. X-ray Analysis of InxSe1-x Crystals by Scherrer, Williamson-Hall and Size-strain plot methods,P B Patel, H N Desai, J M Dhimmar, B P Modi,i-manager’s Journal on Material Science,06,03,34-42,02-12-2018
  105. Micro-Structural and Thermoelectric Characterization of Zinc-Doped In0.6Se0.4 Crystal Grown by Direct Vapour Transport Method,P B Patel, H N Desai, J M Dhimmar, B P Modi,Semiconductors,54,8,923-928,10-04-2020
  106. Approaching new photo-electrics: CdTe nano crystallite thin film,H N Desai, P B Patel, J M Dhimmar, B P Modi,Solid State Communications,313,5,1-5,11-04-2020
  107. A study of photoconductivity characterization of Cadmium Telluride thin film,H N Desai, P B Patel, J M Dhimmar, B P Modi,AIP Conference Proceeding,2265,1,030258-1-4,05-11-2020
  108. The advancement of compelling Indium Selenide: synthesis, structural studies, optical properties and photoelectrical applications,P B Patel, J M Dhimmar, B P Modi, H N Desai,Journal of Materials Science: Materials in Electronics,32,,1032-1041,25-11-2020
  109. Synthesis and Characterization of Direct Vapour Transport Grown Sb2Se3 Crystals,H M Patel, P B Patel, H N Desai, S P Sikligar, J M Dhimmar , B P Modi,Materials Today: Proceedings,47 Part 2,,583-586,16-12-2020

Presentation :

  1. REACTION KINETIC STUDIES ON NATURALLY GROWN AND SURGICALLY REMOVED KIDNEY STONES,PRIYANKA. P.VORA, K.C.PORIA (POSTER),state,28-02-2015,XXIX GUJARAT SCIENCE CONGRESS,RAJKOT
  2. GROWTH OF PURE,CUSO4 AND CUCL2 DOPED THIOUREA CRYSTALS,ARVIND R. BAJAJ,K.C.PORIA,state,28-02-2015,XXIX GUJARAT SCIENCE CONGRESS,RAJKOT
  3. UV-VIS AND FT IR STUDIES OF THIOUREA CRYSTALS,MINAL N VANSIA ,KISHOR C. PORIA,state,28-02-2015,XXIX GUJARAT SCIENCE CONGRESS,RAJKOT
  4. OPTICAL CHARACTERISATION OF PURE AND CUSO4 DOPED THIOUREA SINGLE CRYSTALS,ARVIND R. BAJAJ,K.C.PORIA,state,06-02-2016,XXX GUJARAT SCIENCE CONGRESS,BHUJ
  5. SCIENTIFIC RESERCH SURVEY ON DIAMOND INDUSTRY OF SURAT,D.J.GABANI ,K.C.PORIA,state,06-02-2016,XXX GUJARAT SCIENCE CONGRESS,BHUJ
  6. DETERMINATION OF REACTION KINETIC PARAMETERS OF KIDNEY STONES,K.C.PORIA, PRIYANKA P.VORA,state,06-02-2016,XXX GUJARAT SCIENCE CONGRESS,BHUJ
  7. SYNTHESIS AND CHARACTERISATION OF BISMUTCONDUCTIVE GEGREDATION OF METHAL ORANGEH SULPHIDE NANORODS FOR PHOTO,NITIN M. SHAH,K.C.PORIA,international,06-02-2016,6TH INTERDISCIPLINARY SYMPOSIUM ON MATERIALS CHEMISTRY (ISMC-2016)
  8. STRUCTURAL AND OPTICAL CHARACTERISATION OF BISMUTH SULPHIDE NANORODS,N.M.SHAH ,K.C.PORIA,international,11-03-2016,INTERNATIONAL CONFERENCE ON FUNCTIONAL OXIDES AND NANOMATERIALS (ICFONM-2016),RAJKOT
  9. PHYSICAL INVESTIGATIONS ON SURFACES OF NATURALLY GROWN AND SURGICALLY REMOVED KIDNEY STONES : METABOLIC BASIS AND PHYSICAL PRACTIC,K.C.PORIA,international,11-12-2016,INTERNATIONAL SEMINAR ON CONTEMPORARY ISSUES IN DEVELOPMENT,SURAT
  10. THE STRATEGIC GROWTH ANDSYNTHESIS OF BISMUTH TRISULPHIDE(Bi2S3) SINGLE CRYSTALS ANDNANOPARTICLES,KISHOR C PORIA,KRISHNA LECKINWALA, N.M.SHAH (ORAL),national,21-03-2018,INDIAN INSTITUTE OF SCIENCE,BENGALURU
  11. EFFECT OF FREQUENCIES AND INTENSITIES(WATT) ON GROWTH OF THIOUREA CRYSTALS,D.G.ADROJA, K.C.PORIA,national,26-09-2018,BHABHA ATOMIC RESEARCH CENTRE,MUMBAI
  12. EFFECT OF FREQUENCIES AND INTENSITIES(WATT) ON GROWTH OF THIOUREA CRYSTALS,D.G.ADROJA, K.C.PORIA,national,26-09-2018,BHABHA ATOMIC RESEARCH CENTRE,MUMBAI
  13. EFFECT OF DIFFERENT FREQUENCIES ON THE GROWTH OF THIOUREA CRYSTALS,K.C.PORIA ,D.G.ADROJA,national,26-09-2018,MATERIALS & TECHNOLOGIES FOR ENERGY CONVERSION AND STORAGE(M-TECS 2018),BARC,MUMBAI
  14. GROWTH AND SECOND HARMONIC GENERATION STUDIES OF METAL DOPED THIOUREA SINGLE CRUSTALS,ARVIND R. BAJAJ,K.C.PORIA,international,27-12-2018,INTERNATIONAL CONFERENCE ON ADVANCED MATERIALS AND THEIR TYPERECENT TRENDS IN NANOMATERIALS FOR CLEAR ENERGY (ICRTNCE-2019),KOCHIN
  15. NONLINEAR OPTICAL STUDIES OF PURE AND METAL DOPED THIOUREA CRYSTALS,ARVIND R. BAJAJ,K.C.PORIA,international,17-01-2019,INTERNATIONAL CONFERENCE ON PHYSICS,SOCIETY AND TECHNOLOGY,NEW DELHI
  16. NONLINEAR OPTICAL STUDIES OF PURE AND METAL DOPED THIOUREA CRYSTALS,ARVIND R. BAJAJ,K.C.PORIA,international,17-01-2019,INTERNATIONAL CONFERENCE ON PHYSICS,SOCIETY AND TECHNOLOGY,NEWDELHI
  17. Preparation and Characterization of Thermally Evaporated Selenium Thin Film,H. N Desai, J M Dhimmar, B. P. Modi,National Conference on Advances in Engineering for Sustainability (NCRAES-2015),National,29-05-2015,Uka Tarsadia University, Bardoli
  18. Modified Richardson Plot for Non Ideal Schottky Contact,J M Dhimmar, H N Desai, B P Modi,International Workshop on Physics of Semiconductor Devices 2015,International,07-12-2015,Indian Institute of Science, Banglore
  19. Thickness Dependent Structural and Optical Properties of Zinc Selenide Thin Films,H N Desai, J M Dhimmar, B P Modi,National Conference on Material Characterization NCMC-16,National,18-03-2016,The Maharaja Sayajirao University of Barod
  20. The Electrical Characteristics of Sn/p-Si Schottky Contact,J M Dhimmar, H N Desai, B P Modi,National Conference on Material Characterization NCMC-16,National,18-03-2016,The Maharaja Sayajirao University of Barod
  21. A Comparative study of Indium Selenide crystal and Thin Film,P B Patel H N Desai J M Dhimmar B P Modi,International Conference on Functional Oxides and Nano materials-2016,International,11-11-2016,Saurashtra University
  22. A Study of Photoconductivity and SCLC mechanism in CdTe Thin Film,H N Desai J M Dhimmar P B Patel B P Modi,International Conference on Functional Oxides and Nanomaterials-2016,International,11-11-2016,Saurashtra University
  23. The difference in apparent Schottky barrier height obtained from I-V and C-V measurements due to interfacial oxide layer,J M Dhimmar H N Desai P B Patel B P Modi,International Conference on Functional Oxides and Nanomaterials-2016,International,11-11-2016,Saurashtra University
  24. Photo-Response and Trap Depth Parameters of Sb-Doped Indium Selenide Crystal,S P Sikligar P B Patel H N Desai H M Patel J M Dhimmar B P Modi,International Conference on Advances in Nano Optoelectronics and its Applications-2020,International,12-10-2020,Rajiv Gandhi University
  25. Influence of tin doping on the photoelectric properties of antimony selenide crystal,H M Patel S P Sikligar H N Desai P B Patel J M Dhimmar B P Modi,International Conference on Advances in Nano Optoelectronics and its Applications-2020,International,12-10-2020,Rajiv Gandhi University
  26. Study on Tin DiselenideSingle Crystal Grown by Direct Vapour Transport Method for Possible Application in Photovoltaic Devices,P.D. Patel, H.N. Desai, P.B. Patel, H.M. Patel, S.P. Sikligar, J.M.Dhimmar, B.P.Modi ,Solution Grown Crystals and Their Useful Applications (SGCA-39 2021) ,International,13-09-2021,SSN Research Centre, SSN Institutions, Chennai, Tamil Nadu, India
  27. A study of optical properties of Antimony Doped Indium Selenide Crystals,S.P. Sikligar, H.M. Patel, P.D. Patel, H.N. Desai, P.B. Patel, J. M. Dhimmar, B.P. Modi,Solution Grown Crystals and Their Useful Applications (SGCA-43- 2021) ,International,13-09-2021,SSN Research Centre, SSN Institutions, Chennai, Tamil Nadu, India
  28. Study on effect of doping on properties of antimony selenide crystal ,H. M. Patel, S. P. Sikligar, P. D. Patel, H. N. Desai, P. B. Patel, J. M. Dhimmar, B. P. Modi,Solution Grown Crystals and Their Useful Applications (SGCA-41-2021) ,International,13-09-2021,SSN Research Centre, SSN Institutions, Chennai, Tamil Nadu, India
  29. A Study of trap depth parameters and Photo Photo Response Parameters of Tin diselenide (SnSe 2 ) Crystal,P.D. Patel, H.N. Desai, P.B. Patel, H.M. Patel, S.P. Sikligar, J.M.Dhimmar, B.P.Modi,Fundamental and Applied Sciences (FAS-2021) ,National,20-10-2021,Department of Physics S.V. National Institute of Technology Surat – 395 007 (Gujarat), India
  30. Advance Study of Temperature Dependent Photo-Response: Indium Selenide Crystal ,S. P. Sikligar , H. M. Patel , P. D. Patel , H. N. Desai , P. B. Patel , J. M. Dhimmar , B. P.Modi,Fundamental and Applied Sciences (FAS-2021) ,National,20-10-2021,Department of Physics S.V. National Institute of Technology Surat – 395 007 (Gujarat), India
  31. Promising Photo Conducting Performance of SnSe2 Layered Crystal,P D Patel B P Modi H N Desai S P Sikligar H M Patel J M Dhimmar P B Patel,Emerging Trends in Applied Sciences,International,29-10-2021,Veer Narmad South Gujarat University
  32. Temperature Dependent SCLC Mechanism in Gap Type Al/CdTe Thin Film,P B Patel H N Desai S P Sikligar P D Patel H M Patel J M Dhimmar B P Modi ,Emerging Trends in Applied Sciences ,International,29-10-2021,Veer Narmad South Gujarat University
  33. Determination of Structural Parameters by X-ray Diffraction (SbXIn1-X )Se Crystal ,S P Sikligar B P Modi H M Patel P D Patel H N Desai P B Patel J M Dhimmar ,Emerging Trends in Applied Sciences,International,29-10-2021,Veer Narmad South Gujarat University
  34. Growth and Photoluminescence Study of Nikel Sulfate Doped Zinc tris Thiourea Sulfate (ZTS) Crystal,Kiran T Rathod, I B patel, C F Desai and Y H Gandhi,International Symposium Cum Workshop on Luminescence Materials (ISWLM-2015),International,18/12/2015,Faculty of Technology and Engineering, M.S. University of Baroda
  35. Hardness Study of Barium Nitrate Crystal Grown by Solution Method,Vanish H Tandel, I B patel and Kiran T Rathod,,International Symposium Cum Workshop on Luminescence Materials (ISWLM-2015),International,18/12/2015,Faculty of Technology and Engineering, M.S. University of Baroda
  36. The study of change in optical properties of highly AgNO3 doped poly vinyl alcohol hydrosol,Tushar Kumar K. Vaghasiya, Ishvar B. Patel and Bharat P Modi,International conference on Recent Advances in Nano Science and Technology(RAINSAT-2015),International,08/07/2015,Satyabhama University, Chennai
  37. Preparation of Bi2S3 nanoparticles by high-energy ball milling technique,S.I. Solanki, I.B. Patel, J D Baraliya and P R Ghediya,Theory Meets Experiment: Molecular Nanoscience and Applications Conference at The Institute of Physics(IOP),International,01/06/2015,76 Portiand Place, London, W1B 1NT, UK
  38. Spectroscopic Study of Gel Grown L-Valine Zinc glycine Thiourea Sulfate (VZGTS) Crystal: A Novel NLO Crystal,Kiran T Rathod, I B patel, and C F Desai,International Conference on Functional Oxides and Nanomaterials (ICFONM-2016),International,11/11/2016,Department of Nanoscience & Advanced Materials and Department of phy, Saurashtra University, Rajkot
  39. Characteristics study of Bio-plastic materials synthesized by using Biodegradable materials,Hitesh Patel, I B patel, and Vanish H Tandel,International Conference on Functional Oxides and Nanomaterials (ICFONM-2016),International,11/11/2016,Department of Nanoscience & Advanced Materials and Department of physics, Saurashtra University, Rajkot
  40. Studies of FTIR and Micro Hardness of Barium Nitrate (BN) Crystal Grown by SE- Technique,Vanish H Tandel, I B patel, Kiran T Rathod and Hitesh Patel ,International Conference on Functional Oxides and Nanomaterials (ICFONM-2016),International,11/11/2016,Department of Nanoscience & Advanced Materials and Department of physics, Saurashtra University, Rajkot
  41. Studies of Magnetic Properties of Diamagnetic Zinc: Tin Binary Alloys Grown by zone refining technique,Ketki A Mistry and, I B patel ,International Conference on Functional Oxides and Nanomaterials (ICFONM-2016),International,11/11/2016,Department of Nanoscience & Advanced Materials and Department of physics, Saurashtra University, Rajkot
  42. Synthesis of Bismuth-Tin Alloys by Zone Melting Method,A.S. Pillai, M.H. Mangrola and I. B. Patel,International Conference on “Recent Research Development in Science, Engineering and Management,International,29/05/2016,MaharasttaChember of Commerce Industries & Agriculture, Pune, Maharastra
  43. The Effect of Ammonium Molybdate on Mechanical Property of Zinc (tris) Thiourea Sulfate (ZTS) Crystal: A Novel NLO Crystal,Kiran T Rathod, I B patel, C F Desai and Hiren Desai,National Conference on Material Characterization (NCMC-16),National,18/03/2016,Department of Physics, Faculty of Science, M.S. University of Baroda
  44. Study of mechanical property of Barium Nitrate crystal grown by slow evaporation method,Vanish Tandel, I B patel and Kiran T Rathod,,National Conference on Material Characterization (NCMC-16),National,18/03/2016,Department of Physics, Faculty of Science, M.S. University of Baroda
  45. Study of Activation Energy and Thermodynamic Parameters of Bismuth Sulfide by Thermogravimetric Analysis,Sneha. I. Solanki and I.B. Patel ,National Conference on Material Characterization (NCMC-16),National,18/03/2016,Department of Physics, Faculty of Science, M.S. University of Baroda
  46. Influence of Tin Doping on the Microhardness of Bismuth Metal,A.S. Pillai, M.H. Mangrola, V.J. Rao and I. B. Patel ,One Day National Seminar on “Recent Advances in Process Metallurgy” ,National,01/04/2017,Department of Metallurgy and materials Engineering, Faculty of Tech. & Eng. The M. S. University of Baroda
  47. Studies of EDAX,SEM and XRD for Zinc Oxide Nanoparticles Synthesized by Hydrothermal Technique,A.S. Pillai,V.J.Rao and I. B. Patel,International Conference on Recent Trends in Nanomaterials for Clean Energy (ICRTNCE-2019),International,16/02/2019,Department of Applied Physics, S.V. National Institute of Technology Surat
  48. Influence of Bismuth Concentration on the Dielectric Properties of Bismuth- Tin Alloys,Neel A. Patel, I.B. Patel and A.M.Shah,International Conference on Recent Trends in Nanomaterials for Clean Energy (ICRTNCE-2019),International,16/02/2019,Department of Applied Physics, S.V. National Institute of Technology Surat
  49. EDAX, XRD and SEM Of Hydroxyapatite Synthesized by Wet Chemical Precipitation,K.A. Mistry, I B Patel, Z.V. Fojdar, Neha H. Tandel and Vikram l. Bharat,6th International Conferences on Luminescence and its Application (ICLA-2019),International,07/01/2019,School of Studies in Physics and Astrophysics, Pt. Ravishankar Shukla University, Raipur
  50. Effect of L-Valine and Ammonium Heptamolybdate on Growth, FTIR and Mechanical Studies of Zinc Thiourea Sulfate (ZTS) NLO crystal,Kiran T Rathod, I B Patel, A.M. Shah, Dhruvi K Vaghela, and Neel A Patel,6th International Conferences on Luminescence and its Application (ICLA-2019),International,07/01/2019,School of Studies in Physics and Astrophysics, Pt. Ravishankar Shukla University, Raipur
  51. Growth &Characterization Study of BaCl doped ZTS Cryatals Grown by Gel Method,Kiran T Rathod, I B Patel and Neel A Patel,International Conference on Smart Material and Nanotechnology (ICSMN-2020),International,03/01/2020,SKN Sinhgad College of Engineering Pandharpur-413304 ,Maharashtra, India.
  52. Structural ,Thermal and FTIR studies of Mn doped ZnO Nanoparticles Synthesized by co-precipitation method,Neel A Patel, I B Patel, V. L. Bharat,International Conference on Multifunctional Nanomaterials(ICMN-2020) ( Virtual Conference),International,30/12/2020,Department of Physics , Manipal University Jaipur Rajasthan
  53. Structural ,Thermal and FTIR studies of Pure and cobalt doped ZnO Nanoparticles,Neel A Patel, I B Patel, V. L. Bharat and R.George,6th International Conference on Nanoscience and Nanotechnology( Virtual Conference),International,02/02/2021,Department of Physics and Nanotechnology, SRM Institute of Science and Technology Kattankulathur-603
  54. Nisha D. Patel1, M. H. Mangrola2, Krishna G. Soni3, V. G. Joshi1,5th International Conference of Materials Processing and Characterization (ICMPC 2016),International,13/03/2016,Gokaraju Rangaraju Institute of Engineering and Technology (GRIET), Hyderabad
  55. Hiral Joshi, Vibhutikumar Joshi,4th International Conference on Electronics, Communication and Aerospace Technology (ICECA-2020),International,06/11/2020,
  56. Rameshchandra Makavana, Vibhutikumar Joshi, Hiteshkumar Lad,IEEE 2nd International Conference on Inventive Communication and Computational Technologies (ICICCT 2018),International,20/04/2018,Ranganathan Engineering College, Thondamuthur, Tamil Nadu
  57. Hiteshkumar Lad, Vibhutikumar Joshi,International Conference on Intelligent System and Signal Processing (ISSP-2017),International,24/03/2017,G.H.Patel College of Engineering and Technology, Anand, Gujarat
  58. Hiral M. Joshi, Hiteshkumar Lad, Vibhutikumar Joshi,4th International Conference on Electronics, Communication and Aerospace Technology ICECA 2020,International,06/11/2020,RVS Technical Campus at Coimbatore, Tamil Nadu, India
  59. Optoelectronic Properties of 2D GeS and GeSe using Density Functional Theory Approach,Abhishek Patel, Deobrat Singh, Yogesh Sonvane, P.B. Thakor and Rajeev Ahuja,Emerging Trends in Applied Science (ETAS-2021),International,2021,Veer Narmad South Gujarat University, Surat.
  60. Highly Anisotropic Mechanical Properties of Si2BN Monolayer,H.R. Mahida, Deobrat Singh, P.H. Jariwala, Yogesh Sonvane, and P.B. Thakor,Emerging Trends in Applied Science (ETAS-2021),International,2021,Veer Narmad South Gujarat University, Surat.
  61. Si/Ge Core Shell Nanowire as a Promising Candidate for the Thermoelectric Material,Pinank Jariwala, Yogesh Sonvane and P. B. Thakor,Emerging Trends in Applied Science (ETAS-2021),International,2021,Veer Narmad South Gujarat University, Surat.
  62. Structural, Electronic and Optical Properties of 2D monolayer As2S3,Abhishek Patel, Deobrat Singh, Yogesh Sonvane, P.B. Thakor and Rajeev Ahuja,Functional Materials and Applied Physics (FMAP-2021),International,2021,Sardar Vallabhbhai National Institute of Technology, Surat.
  63. Structural, Electronic and Optical Properties of 2D monolayer and bilayer CoO2,V.R. Patel, Abhishek Patel, Yogesh Sonvane, P.B. Thakor,Functional Materials and Applied Physics (FMAP-2021),International,2021,Sardar Vallabhbhai National Institute of Technology, Surat.
  64. Effect of Oxygen Functionalization on Optoelectronic Properties of monolayer GaS,Abhishek Patel, Yogesh Sonvane and P.B. Thakor,Mathematical Modelling and Simulation in Physical Science (MMSPS-2021),International,2021,Sardar Vallabhbhai National Institute of Technology, Surat.
  65. Electronic and Optical properties of 2D Bilayer ZrO2,V.R. Patel, Abhishek Patel, Yogesh Sonvane, P.B. Thakor,Mathematical Modelling and Simulation in Physical Science (MMSPS-2021),International,2021,Sardar Vallabhbhai National Institute of Technology, Surat.
  66. Effect of strain engineering on the optoelectronic properties of 2D GeS,Abhishek Patel, Deobrat Singh, Yogesh Sonvane, P.B. Thakor and Rajeev Ahuja,International Conference on Physical Science (ICPS-2021),International,2021,Sardar Vallabhbhai National Institute of Technology, Surat.
  67. Band-gap engineering of CeO2 Monolayers using First Principle Calculations,V. R. Patel, Shivam Kansara, Deobrat Singh, Nishant Prajapati, Yogesh Sonvane, Sanjeev Gupta, P. B. Thakor,International Conference on Recent Trend in Nanomaterial for Clean Energy (ICRTNC-2019),International,2019,Sardar Vallabhbhai National Institute of Technology, Surat.
  68. Preparation and Characterization of Thermally Evaporated Selenium Thin Film,H. N Desai, J M Dhimmar, B. P. Modi,National Conference on Advances in Engineering for Sustainability (NCRAES-2015),National,29-05-2015,Uka Tarsadia University, Bardoli
  69. Modified Richardson Plot for Non Ideal Schottky Contact,J M Dhimmar, H N Desai, B P Modi,International Workshop on Physics of Semiconductor Devices 2015,International,07-12-2015,Indian Institute of Science, Banglore
  70. Thickness Dependent Structural and Optical Properties of Zinc Selenide Thin Films,H N Desai, J M Dhimmar, B P Modi,National Conference on Material Characterization NCMC-16,National,18-03-2016,The Maharaja Sayajirao University of Baroda
  71. The Electrical Characteristics of Sn/p-Si Schottky Contact,J M Dhimmar, H N Desai, B P Modi,National Conference on Material Characterization NCMC-16,National,18-03-2016,The Maharaja Sayajirao University of Baroda
  72. A Comparative study of Indium Selenide crystal and Thin Film,P B Patel, H N Desai, J M Dhimmar, B P Modi,International Conference on Functional Oxides and Nanomaterials-2016,International,11-11-2016,Saurashtra University
  73. A Study of Photoconductivity and SCLC mechanism in CdTe Thin Film,H N Desai, J M Dhimmar, P B Patel, B P Modi ,International Conference on Functional Oxides and Nanomaterials-2016,International,11-11-2016,Saurashtra University
  74. The difference in apparent Schottky barrier height obtained from I-V and C-V measurements due to interfacial oxide layer,J M Dhimmar, H N Desai, P B Patel, B P Modi,International Conference on Functional Oxides and Nanomaterials-2016,International,11-11-2016,Saurashtra University
  75. Study on effect of doping on properties of Antimony Selenide crystal,H M Patel , S P Sikligar , P D Patel , H N Desai , P B Patel , J M Dhimmar, B P Modi,Solution Grown Crystals and Their Useful Applications,International ,13-09-2021,SSN research Centre, SSN Institutions (Autonomous) Chennai
  76. A study of optical properties of Antimony Doped Indium Selenide Crystals ,S P Sikligar, H M Patel, P D Patel, H N Desai, P B Patel, J M Dhimmar, B P Modi,Solution Grown Crystals and Their Useful Applications,SSN research Centre, SSN Institutions (Autonomous) Chennai,13-09-2021,SSN research Centre, SSN Institutions (Autonomous) Chennai
  77. Study on Tin Diselenide Single Crystal Grown by Direct Vapour Transport Method for Possible Application in Photovoltaic Devices ,P D Patel, H M Patel, S P Sikligar, H N Desai, P B Patel, J M Dhimmar, B P Modi,Solution Grown Crystals and Their Useful Applications,SSN research Centre, SSN Institutions (Autonomous) Chennai,13-09-2021,SSN research Centre, SSN Institutions (Autonomous) Chennai
  78. Photo-Response and Trap Depth Parameters of Sb-Doped Indium Selenide Crystal,S P Sikligar, P B Patel, H N Desai, H M Patel, J M Dhimmar , B P Modi,International Conference on Advances in Nano Optoelectronics and its Applications-2020,International,12-10-2020,Rajiv Gandhi University
  79. Influence of tin doping on the photoelectric properties of Antimony Selenide crystal,H M Patel, S P Sikligar, H N Desai, P B Patel, J M Dhimmar, B P Modi,International Conference on Advances in Nano Optoelectronics and its Applications-2020,International,12-10-2020,Rajiv Gandhi University
  80. A Study of Photo Response and Photo Conducting Parameters of Tin diselenide (SnSe2) Layered Crystals ,P D Patel, H N Desai, P B Patel, H M Patel, S P Sikligar, J M Dhimmar, B P Modi ,Fundamental and Applied Sciences,National,20-10-2021,Sardar Vallabhbhai National Institute of Technology, Surat
  81. Advance Study of Temperature Dependent Photo-Response: Indium Selenide Crystal ,S P Sikligar, H. M. Patel, P D Patel, H N Desai, P B Patel, J M Dhimmar, B P Modi ,Fundamental and Applied Sciences,National,20-10-2021,Sardar Vallabhbhai National Institute of Technology, Surat
  82. Temperature Dependent SCLC Mechanism in Gap Type Al/CdTe Thin Film,P B Patel, H N Desai, S P Sikligar, P D Patel, H M Patel, J M Dhimmar,B P Modi,Emerging Trends in Applied Sciences ,International,29-10-2021,Veer Narmad South Gujarat University
  83. Promising Photo Conducting Performance of SnSe2 Layered Crystal,P D Patel, B P Modi, H N Desai, S P Sikligar, H M Patel J M Dhimmar,P B Patel,Emerging Trends in Applied Sciences,International,29-10-2021,Veer Narmad South Gujarat University
  84. Determination of Structural Parameters by X-ray Diffraction (SbXIn1-X )Se Crystal ,S P Sikligar, B P Modi, H M Patel, P D Patel, H N Desai, P B Patel, J M Dhimmar ,Emerging Trends in Applied Sciences,International,29-10-2021,Veer Narmad South Gujarat University

Details since 2015

  1. MICROELECTRONICS -AN INTRODUCTION,UGC SPONSORED ONLINE REFRESHER COUSE FOR COLLEGE AND UNIVERSITY PROFESSORS IN PHYSICS,GUJARAT UNIVERSITY, AHMEDABAD (ON LINE),07-09-2020
  2. ADVANCED NANOELECTRONICS,UGC SPONSORED ONLINE REFRESHER COUSE FOR COLLEGE AND UNIVERSITY PROFESSORS IN PHYSICS,GUJARAT UNIVERSITY, AHMEDABAD (ON LINE),07-09-2020
  3. MICROELECTRONICS -TECHNOLOGIES,UGC SPONSORED ONLINE REFRESHER COUSE FOR COLLEGE AND UNIVERSITY PROFESSORS IN PHYSICS,GUJARAT UNIVERSITY, AHMEDABAD (ON LINE),09-09-2020
  4. NMOS : A DOMINANT DEVICE FOR IC FAB.,WEBINAR,PARUL INSTITUTE OF TECHNOLOGY, VADODARA,21-01-2021
  5. Effect of Potassium Bromide on Photo Luminescence, Spectroscopy and Thermal Studies of Zinc Tris-Thiourea Sulfate (ZTS) NLO Crystal ,National Conferences on Luminescence and Application (NCLA-2018) ,CSIR- National Institute for Interdisciplinary Science and Technology (CSIR-NIIST), Trivandrum.,14th to 16th February 2018
  6. Microprocessors and Microcontrollers,National Webinar on “Latest Trends in Nano Material Synthesis, Advanced Microprocessors and Challenges”,Dhule, Maharashtra,10/06/2020
  7. Feedback and Oscillator,College extension Lecture series.,B.K.M. Science College, Valsad,03/02/2020
  8. Recent trends in Digital Electronics & Embedded Syatems,Refresher Course in Electronics,N.V.Patel Science College, Vallabh Vidya Nagar Gujarat,16/03/2019
  9. Advance in Electronics,College extension Lecture series.,B.K.M. Science College, Valsad,13/02/2019
  10. Concept enrichment in Physics,Orientation for Trained Graduate Teacher of AEES,Atomic Energy Central School, Kakrapar, Gujarat,01/01/2016
  11. How to judge the quality of research,31st Short Term Research Methodology Workshop on "Physics & Electronics",Knowledge Consortium of Gujarat (KCG), Ahmedabad, Gujarat, India,21-11-2019
  12. Research Project, Funding Agency, Academic Writing and Publications,90th Orientation Programme,UGC-Human Resource Development Center, Gujarat University, Ahmedabad, Gujarat, India,14-11-2017
  13. Calculation of Academic Perfomance Indicators (API),One Day Workshop on Academic Perfomance Indicators: Calculations, Maintainance and Improvement,S.K. COLLEGE OF BUSINESS MANAGEMEN, Patan, Gujarat, India.,15-12-2016
  14. Research Praposal & How to Judge Qaulity of Research Paper,Refresher Course In Innovative Research Possibility,UGC-Human Resource Development Center, Gujarat University, Ahmedabad, Gujarat, India,13-06-2016
  15. Research Praposal and How to Judge Qaulity of Research Paper,84th Orientation Programme,UGC-Human Resource Development Center, Gujarat University, Ahmedabad, Gujarat, India,08-12-2015
  16. How to judge the quality of research paper,One Day State Level Symposium on "Research, Writting, Publications and Analysis",Shree Ramkrishna Institute of Computer Education, Surat, Gujarat, India,03-10-2015
  17. 1) How to Write Research Paper 2) Funding Agency and Publications,79th Orientation Programme,UGC-Human Resource Development Center, Gujarat University, Ahmedabad, Gujarat, India,17-06-2015
  18. Minor & Major Project - I, Minor & Major Project - II,29th Orientation Programme,UGC - Human Resource Development Centre (UGC-HRDC), Sardar Patel University, Vallabh Vidyanagar, Anand, Gujarat, India,02-06-2015

Details since 2015

  1. ADROJA DIPAK GOPALJIBHAI,Ph.D.,STUDIES ON EFFECT OF LIGHT ON THIOUREA SINGLE CRYSTAL GROWTH,AWARDED,8/05/2015
  2. VORA PRIYANKA PRAKASHBHAI,Ph.D.,CRYSTAL GROWTH AND CHARACTERISATION OF KIDNEY STONES,AWARDED,28/10/2016
  3. VANSIA MINAL NATVERLAL,Ph.D.,DETERMINATION OF SOME PHYSICAL PARAMETERSOF THIOUREA CRYSTALS,AWARDED,25/06/2018
  4. ARVIND R. BAJAJ,Ph.D.,STUDIES ON GROWTH OF THIOUREA CRYSTALS FOR IMPROVEMENT IN THERMAL ,OPTICAL AND MICROHAEDNESS PROPERT,AWARDED,14/08/2019
  5. KRISHNA D. LEKINWALA,Ph.D.,GROWTH OF BI2S3 CRYSTALS BY USING DIFFERENT METHODS,AWARDED, 29/08/2019
  6. MISTRY Vaibhaviben Hasmukhlal,M.Phil,GROWTH AND CHARACTERIZATION OF p- TYPE COPPER OXIDE THIN FILMS,-,April
  7. Sikligar Sanket Pankajkumar,M.Phil,A STUDY ON GROWTH AND CHARACTERIZATION OF THIOUREA AND UREA-THIOURE MIXED CRYSTALS BY SLOW EVAPORATION TECHNIQUE,,April
  8. Desai Hiren Nareshbhai,Ph.D,SYNTHESIS AND CHARACTERIZATION OF SELENIUM, ZINCSELENIDE AND CADMIUM TELLURIDE THIN FILMS,,Oct. 2016
  9. Dhimmar Jitendra Magan bhai,Ph.D,STUDY ON FABRICATION AND SCHOTTKY BARRIER DEVICESOF THINFILM AND SCHOTTKY BARRIER AND DEVICES,,Feb. 2019
  10. Patel Piyush Bhawan ,Ph.D,A STUDY ON GROWTH, STRUCTURAL OPTICAL AND ELECTRICAL PROPERTIES OF INSE CRYSTALS AND THIN FILM,,Dec. 2019
  11. Miss, SNEHABEN I SOLANKI Notification:1921/Dt.31-08-16,Ph.D.,STYDIES OF Bi2S3 NANOSTRUCTURES SYNTHESIZED USING DIFFERENT TECHNIQUES,Awarded,Aug-2016
  12. Miss KIRANBEN T RATHOD Notification:1922/Dt.31-08-16,Ph.D.,STUDIES OF GROWTH PARAMETER, AND CHARACTERIZATION OF PURE AND DOPED ZTS (ZINC THIOUREA SULPHATE) CRYSTAL GROWN BY GEL TECHNIQUE,Awarded,Aug-2016
  13. Mr. ANILKUMAR S. PILLAI Notification:2042/Dt.12-07-17,Ph. D.,A STUDY ON THE INFLUENCE OF TIN DOPANTS ON THE PROPERTIES OF BISMUTH METAL,Awarded,July-2017
  14. Miss NEHA H TANDEL Notification:1858/Dt.27-09-17,M.Phil,GROWTH AND CHARECTERIZATION OF SRONTIUM TRATRET, MAGNESIUM TARTRATE AND NAGNESIUM MIXED WITH STRONSIUM TARTRATE CRYSTAL GROWN BY GEL THECHNIQUE ,Awarded,Sept-2017
  15. Miss TEJALAROON RAVAL Notification:2219/Dt.09-07-18,Ph.D.,A STUDY OF THE FABRICATION AND APPLICATIONS OF DIFFERENT COMBINATIONS OF NITINOL: A SHAPE MEMORY ALLOY,Awarded,Sept-2017
  16. Miss DHRUVI K VAGHELANotification:1842/Dt.08-08-17,M.Phil,STUDIES OF THARMAL BEHAVIOUR OF ZINC THIOUREA SULPHATE(ZTS) CRYSTAL GROWN BY GEL METHOD,Awarded,Aug-2017
  17. Mr. VANISH H. TANDEL Notification:2268/Dt.06-12-18,Ph.D.,STUDIS OF GROWTH AND CHARECTERIZATION OF PURE AND DOPED BARIUM NITRATE CRYSTALS GROWN BY SLOW EVAPORATION TECHNIQUE.,Awarded,Dec-2018
  18. Mrs. PATEL ARCHITABEN B, Persuing Ph.D.,
  19. Mr. VIKRAM L. BAHRAT, Persuing Ph.D.,
  20. Mr. NEEL A. PATEL, Persuing Ph.D.,
  21. Miss DHRUVI VAGHELA K, Persuing Ph.D.,
  22. Miss NEHA H TANDEL, Persuing Ph.D.,
  23. Krishna Soni,PHD,Study the influence of Ferro electric ceramic Na0.2 Bi0.3 Zr0.5 TiO2,Awarded,30/01/2021
  24. Rameshchandra Makavana,PHD,Study of Zigbee based Wireless Distributed Embedded System for Resource Management in Natural Salt Manufacturing process,Awarded,02/01/2020
  25. Hiteshkumar Lad,PHD,STUDY OF WIRED OR WIRELESS DISTRIBUTED EMBEDDED SYSTEM,Awarded,10/05/2017
  26. Shastri Nipa,PHD,Synthesis, Characterization and Comparative Study of BaxSr1-xTiO3 (x = 0.5, 0.7) Bulk and Thin films,Awarded,04/05/2021
  27. Hetalben Mawani,M.Phil,Synthesis and Study of NBT [(Na0.6Bi0.4)TiO3],Awarded,07/02/2020
  28. Mahida Hardipsinh Ranjitsinh ,M.Phil,Study of Some Physical Properties of MgF2 and La2Ce2O7 using Density Functional Theory,Awarded,2017
  29. Patel Vaishalikumari Ranchhodbhai,M.Phil,Structural and Dynamical Properties of Liquid Metals using Molecular Dynamics,Awarded,2017
  30. Prajapati Ananadkumar Vallabhbhai,Ph.D,Structural Based Some Physical Properties of Liquid Semiconductors using Pseudopotential Theory,Awarded,2019
  31. Patel Harshal Pradipkumar ,Ph.D,Investigation of Electronic, Atomic and Vibrational Properties of Liquid Lanthanides using Pseudopotential Approach,Awarded,2019
  32. Jariwala Pinank Hiteshkumar ,Ph.D,Computation of Structural, Electronic and Transport Properties of Si, Ge, and Au Nanowire: A Density Functional Approach,Awarded,2020
  33. Mahida Hardipsinh Ranjitsinh ,Ph.D,Impact of Structural Defect on Optoelectronic and Transport Properties of 2D MgX2 (X=F, Cl) and Si2BN for Potential Applications,Awarded,2021
  34. Patel Vaishalikumari Ranchhodbhai, Persuing Ph.D.
  35. Patel Abhishek Rajendrabhai, Persuing Ph.D.
  36. Parmar Pruthvisinh Rajeshsinh, Persuing Ph.D.
  37. Khengar Siddharajsinh Jaydeepsinh, Persuing Ph.D.

Contact Us

Phone

0261-2203109

0261-2203120

Address

Department of Physics,
Veer Narmad South Gujarat University,
Udhana Magdalla Road, Surat - 395 007
Gujarat- India

E-Mail

Office.dph@vnsgu.ac.in , hod.dph@vnsgu.ac.in

How To Reach?

M.Sc. Physics (Material Science/Electronics/Theoretical physics)

M.Sc. Physics (Material Science/Electronics/Theoretical physics) is 2 years 4 semesters course

Download Syllabus Sem - I

Download Syllabus Sem - II

Download Syllabus Sem - III

Download Syllabus Sem - IV




Objective Of Program

The core objective of the MSc.-Physics programme is to prepare the students for teaching and research in the core and emerging areas of the discipline.

Program Outcome

PO1 : Fundamental Knowledge Enrichment :

The Students will obtain basic theoretical and Practical knowledge in Physics Sciences. They will be trained to complete tests like UGC-CSIR, NET, GSET, GATE etc.. Successfully. It also makes students capable of using core concepts of physics in conceptualization of domain specific viz Theoretical Physics, Material Science and Electronics.

PO2 : Critical Thinking Development :

The examination pattern for M.Sc. program Physics having the 30% weightage for problem and applications and 70% weightage given to theory. This concept develops the skills of critical thinking, program solving, evaluative learning of various techniques, and understanding the essence of the problem.

PO3 : Advanced Emerging Technology Awareness :

The Syllabus of this program consist of Advanced QM, Advance Materials science, Microelectronics and Microprocessor. So, the students avail the advance knowledge in their resign. Which enrich them through this knowledge of latest technologies that is being used in Industry as well as Research Institute. The continuous syllabi review adds value to the program for the outgoing students and make them ready to face challenging demands of the Industry.

PO4 : Advanced Tools Usage :

Computer laboratory are compulsory for all specification, so their soft skill are developed by programming. LCD project smart class room, PPT and Videos are used for regular teaching. This teaching helps them to apply the advanced tools to solve real world problems.

PO5 : Nurturing Project Planning and Management Capabilities :

The program trains students for designing and conceptualizing the software architecture, planning and managing the product development process of complex and live software projects. It also makes students understand the decision making for selection of appropriate project management capabilities.

PO6 : Real World Problem / Project Development :

Real world project provides the candidates exposure to work in the challenging and demanding environment of the industry. The project development training makes students employable and industry ready.

PO7 : Team Work and Leadership Development :

Trains students to work in a team and also to take leadership of the project management team.

Semester - I
Course Code Course Title Outcome Credit
PH-411 Mathematical Methods of Physics

CO1: At the end of the course, the students will be able to use different mathematical methods to study problems in non-linear sciences.
CO2: Understand the methods to ordinary differential equations. understand the methods to solve Nonlinear Schrodinger type equations
CO3: Uunderstand the concepts and application of solutions.

 4
PH-412 Classical Mechanics

CO1: The end of the course, the students will be able to understand.
CO2: The basic concepts on Classical Mechanics
CO3: The theorems relating to the nonlinear bodies.
CO4: The various aspects of dynamics and oscillations of bodies.

 4
PH-413 Measurement, Instrumentation and Experimental Planning

CO1: At the end of the course, the students will be able to acquire the knowledge about the different errors occurring during measurement.
CO2:Understand the principle behind the instrumentation for measurement.
CO3:Identify the various transducers involved in measurement.

 4
PH-414 General Electronics

CO1: At the end of the course, the students will be able to understand the fundamentals of working of semiconductor and special devices
CO2: Applications of electronic devices

 4
PH-415 PRACTICALS

CO1: At the end of the course, the students will be able to understand the fundamentals of working of semiconductor and special devices
CO2: Applications of electronic devices

 4
Semester - II
Course Code Course Title Outcome Credit
PH-421 QUANTUM MECHANICS - I

CO1: At the end of the course, the students will be able to understand the basics of quantum mechanics.
CO2:various physics concepts in the light of quantum mechanics.

 4
PH-422 Solid State Physics

CO1: At the end of the course, the students will be able to understand the basic concepts on properties of materials in solid state physics.
CO2: phenomenon of superconductivity and its properties.
CO3: different techniques used for synthesis and fabrication of nano-materials.

 4
PH-423 Classical Electrodynamics and Plasma Physics

CO1: At the end of the course work , the students have Knowledge of electrostatics and magneto statics explaining fundamental concepts, basic equations and self sufficient to develop the subject of electrodynamics.
CO2: To gain knowledge of electrodynamics for moving charge and radiating system.

 4
PH-424 Numerical Analysis, Computer Programming

CO1: Numerical methods & programming At the end of course, students will be able to understand some numerical methods to solve physical problems and simulate that problems by knowing some compiler languages.
CO2: At the end of the course, the students will be able to understand the basic concepts of numerical methods and programming

 4
PH-425 Practicals

CO1: At the end of the course, the students will be able to understand the fundamentals of working of semiconductor and special devices
CO2:Applications of electronic devices

 4
Semester - III
Course Code Course Title Outcome Credit
PH-531 QUANTUM MECHANICS - II

CO1: At the end of the course, the students will be able to understand the scattering and Perturbation theory.
CO2: Also understand the relativistic wave equations.

 4
PH-532 Nuclear and Particle Physics

CO1: Students have better understanding of theoretical aspects of nuclear structure models, nuclear interaction, nuclear decay and nuclear reactions.
CO2: They also learn about the structure and interaction of the sub-nuclear particles in quark models and the underlying fundamental symmetry properties.

 4
PH(E)-533 Physics of Semiconductor Devices

CO1: The syllabus provide an introduction to theory of Semiconductor Device.
CO2: The emphasis on vital understanding of both the operation of present day devices will be benefited of present day device will be benefited to further development of new Semiconductor device in the field.

 4
PH(E)-534 Microcontroller and its applications

CO1: Being Advance subject, Microcontroller and its application is introduced in the curriculum.
CO2: In the field of electronics & Instrumentation the microcontroller base circuits play important roll.
CO3: Therefore the employability of the student's in the Industry increases.

 4
PH(E)-535 Practical’s Practical’s

CO1: Some of the ‘Design, Build, and Test” type Electronic experiments are included in this lab to realise the theory of Electronics.
CO2:Programming part of the theory course PH(E)-534 (Microcontroller) learnt in the class room is practiced in this lab course.
CO3: A good hand on experience in “Electronic circuit design, Build and Test” is gained.

 4
PH(M)– 533 Crystal Growth & Characterizations

CO1: At the end of the course, the students will be able to get familiarized with various techniques involved in Crystal Growth.
CO2: At the end of the course, the students will be able to get familiarized to determine various theoretical parameters.

 4
PH(M)-534 Advanced Materials Science

CO1: The Course consist of civilization of materials to advanced materials like, smart materials, Quantum Dots, Spintronics, Ceramics, composites and macro molecules.
CO2: Nonmaterial , Synthesis of nonmaterial and advanced applications of materials are briefly explain.

 4
PH(M)-535 Practical’s

CO1: At the end of Performing material Practical’s students have ability to measurement conductivity crystal growth characterization like hardness etching etc.
CO2: Magnetic Proportion at material and aware of the non destructive technique of liquid Penetration method.

 4
PH(T)-533 Non-linear Dynamics and High-Performance-Computing

CO1: Most advanced packages and languages are learnt for simulation of Physics problem with theoretical aspects. This course also contains the parallel programming.
CO2: It is essential for all students of computing to understand the architecture and programming of parallel computing.

 4
PH(T)-534 Computational and Simulation methods in Physics

CO1: More advanced numerical techniques for solving physics problems are learnt and applied in computer simulation of physics problems to learn theoretical aspects and predictabilities.
CO2: students to handle larger simulation problems in physics.

 4
PH(T)-535 Practical’s

CO1: Some of the numerical techniques and simulation techniques learnt in the theory course PH(T)-534 are practiced in this lab course.
CO2: A good hand on experience in FORTRAN and C programming is gained.

 4
Semester - IV
Course Code Course Title Outcome Credit
PH- 541 Physics of Lasers and Lasers Applications

CO1: At the end of the course work, the student has to knowledge of the basic theory behind Laser Operation and Its properties throughout.
CO2: the treatment has been kept as simple as positive with some familiarity of electromagnetic theory and non-linear optics.

 4
PH-542 Atomic and Molecular Physics

CO1: The course presents unifies account of physics of atoms and molecules from a modern viewpoint.
CO2: At the end of the course, the students deal with of material on basic atomic physics, including atomic structure, the optical and X-ray spectra of atoms, the interaction of atom with electric and magnetic fields.

 4
PH(E)-543 MICRO ELECTRONICS

CO1: The course contains the advance topics of Microelectronics like, NMOS, CMOS, BIFET-BIMOS-BICMOS, ECL and CCD technology.
CO2: Syllabus also giving emphasis on architecture of memory devices likes PROM, EPROM, EEPROM.
CO3: Current sources multi loop feedback Amplifier, and Theory of High Frequency response of Amplifiers are briefly discuss.

 4
PH(E)- 544 Electronic Communication

CO1: The course provides excitement of the electronic communication field as well as background essential for advanced study in communication systems.
CO2: The practicing students will find it of service to update their knowledge in the field.

 4
PH(E) - 545 Practical

CO1: As part of this lab course, a full semester project is carried out on some Electronics related problem which is am electronic circuit.
CO2: The project in this lab. Includes system designing, PCB designing, using, construction and testing of the circuit.
CO3: Good training in planning and executing an Electronic project and technical skill development is the outcome.

 4
PH(M)-543 Properties of Materials

CO1: At the end of the course, the students will be able to understand the various methods involved in material characterization
CO2: At the end of the course, the students will be able to understand the importance of use of different instruments for material study.

 4
PH(M)-544 Techniques of Material Science

CO1: After the study of this paper students have capable to fundamental understanding of vacuum Technology and perspective of current vacuum application.
CO2: Also syllabus focused operation and selection of equipment for process Used in semiconductor devices, optical and related thin film technologies.

 4
PH(M) - 545 Practical

CO1: After Competition of Project Work student have knowledge scientific technique to work on advance and now growth.
CO2: Crystallization material and how to synthesis crystalline material and learn to skill about report writing.

 4
PH(T)-543 ADVANCED QUANTUM MECHANICS

CO1: At the end of the course the students will be able to understand the negativistic equations in central potential, symmentuios and application to many body systems.

 4
PH (T)-544 Group Theory and Quantum Field Theory

CO1: Discrete and continuous Symmetries in physics are learnt through group theoretical aspects and their applications in solving physics problems.
CO2:Fundamental aspects of quantum field theory and its application in understanding of fundamental interactions are also learnt in this course.

 4
PH(T)-545 Practical

CO1: As part of this lab course,upon completion of this course, students will be proficient in comprehensively studying physics problems through simulation using FORTRAN or C or Mathematica programming languages.
CO2: The project in this lab, Competence in designing, implementing, and evaluating simulation programs to analyze complex physics phenomena.
CO3: Ability to effectively communicate and present findings from the simulated study of physics problems using appropriate programming languages.

 4

Eligibility Criteria

(SC/ST- 35%, OPEN/SEBC-40%)
A candidate must have passed the Bachelor’s Degree examination in Science with English as compulsory subject.
A candidate who has obtained his/her Bachelor’s Degree with Physics as Principal subject shall be considered eligible for admission to M.Sc. Physics course.

Admission Details

All eligible candidates will be called for the counseling and admitted as per the university rules and merit of their graduation degree.

Reservation Policy

As per rules of university.

Fee Structure *

      Grant in Aid (GIA)             Higher Payment(HP)            Self Finance (SFI)    
Male           Rs. 6915/-             Rs. 21915/-                ---
Female         Rs. 4415/-             Rs. 19415/-

               ---
       

*Subject to Revision Periodically

M.Sc. Electronics

M.Sc. (Electronics) is 2 years 4 semesters course

Syllabus Download




Objective Of Program

The core objective of the MSc.- ELECTRONICS programme is to prepare the students for teaching and research in the core and emerging areas of the discipline.

Program Outcome

PO1 : Fundamental Knowledge Enrichment

The Students will obtain basic theoretical and Practical knowledge in ELECTRONICS Sciences. They will be trained to complete tests like UGC-CSIR, NET, GSET, GATE etc.. Successfully. It also makes students capable of using core concepts of ELECTRONICS.

PO2 : Critical Thinking Development

The examination pattern for M.Sc. program ELECTRONICS having the 30% weight age for problem and applications and 70% weightage given to theory. This concept develops the skills of critical thinking, program solving, evaluative learning of various techniques, and understanding the essence of the problem.

PO3 : Advanced Emerging Technology Awareness

The Syllabus of this program consist of Advanced QM, Advance, Microelectronics and Microprocessor. So, the students avail the advance knowledge in their resign. Which enrich them through this knowledge of latest technologies that is being used in Industry as well as Research Institute. The continuous syllabi review adds value to the program for the outgoing students and make them ready to face challenging demands of the Industry.

PO4 : Advanced Tools Usage

Computer laboratory are compulsory for all specification, so their soft skill are developed by programming. LCD project smart class room, PPT and Videos are used for regular teaching. This teaching helps them to apply the advanced tools to solve real world problems.

PO5 : Nurturing Project Planning and Management Capabilities

The program trains students for designing and conceptualizing the software architecture, planning and managing the product development process of complex and live software projects. It also makes students understand the decision making for selection of appropriate project management capabilities.

PO6 : Real World Problem / Project Development

Real world project provides the candidates exposure to work in the challenging and demanding environment of the industry. The project development training makes students employable and industry ready.

PO7 : Team Work and Leadership Development

Trains students to work in a team and also to take leadership of the project management team.

Intake

Grant in Aid (GIA) : 10
Higher Payment(HP) : 06
Self-finance (SFI) : 00

Program Duration

2 years

Semester - IV
Course Code Course Title Outcome Credit
EL - 541 Laser and its Applications

CO1: At the end of the course work, the student has to knowledge of the basic theory behind Laser Operation and Its properties throughout.
CO2:the treatment has been kept as simple as positive with some familiarity of electromagnetic theory and non-linear optics.

 4
EL- 542 Integrated Circuits Technology

CO1: The students learn about classification of Integrating circuits and how the IC’s are fabricated.
CO2:The students may also aware with basic steps of IC’s fabrication processes like Crystal Growth, Epitaxial growth, Oxidation Photo litho grapy diffusion and metallization.
CO3: The students are familiarize with IC fabrication methods for fabrication of BJT, FET, MOSFET and SMOS.
CO4: The students may aware with topical concept for IC’s, thay may also aware with different types of Bonding and packages for ICs

 4
EL-543 Analog & Digital Electronics

CO1: The course contains the advance topics of Microelectronics like, NMOS, CMOS, BIFET-BIMOS-BICMOS, ECL and CCD technology.
CO2:Syllabus also giving emphasis on architecture of memory devices likes PROM, EPROM, EEPROM.
CO3: Current sources multi loop feedback Amplifier, and Theory of High Frequency response of Amplifiers are briefly discuss.

 4
EL-543 Analog & Digital Electronics

CO1: The course contains the advance topics of Microelectronics like, NMOS, CMOS, BIFET-BIMOS-BICMOS, ECL and CCD technology.
CO2:Syllabus also giving emphasis on architecture of memory devices likes PROM, EPROM, EEPROM.
CO3: Current sources multi loop feedback Amplifier, and Theory of High Frequency response of Amplifiers are briefly discuss.

 4
EL- 544 Electronic Communication – II

CO1: At the end of the course work, it is to extend & Update of the Knowledge of the students to more modern Digital Communication Systems, terrestrial and microwave radio communication systems and satellite communication systems.
CO2:An attempt is mode to know the fundamental of telephone Switching traffic load & service grade.

 4
EL- 545 Practicals

CO1: As part of this lab course, a full semester project is carried out on some Electronics related problem which is am electronic circuit.
CO2:The project in this lab. Includes system designing, PCB designing, using, construction and testing of the circuit.
CO3: Good training in planning and executing an Electronic project and technical skill development is the outcome.

 4
Semester - III
Course Code Course Title Outcome Credit
EL - 531 Microwave

CO1:The students will learn about basic devices used for production and applications of Microwave frequencies.
CO2:The Devices like Tunnel Diode, MIS diode, IMPATT diode, TRAPATT diode, BARITT diode.
CO3: Students will learn about Microwave transmission lines, Smith chart, Impedance matching, Couplers and Isolators.
CO4: The students may aware with basics of Reflex klystrons, and Helix travelling wave cubes and Agile coaxial magnetrons.

 4
EL- 532 Optoelectronics

CO1:At the end of the Course work, it Provides the Students with a general understanding of the Characteristics of Optical Fibers and how they are used in a telecommunication system courses in Communication theory would be helpful for gaining a full understanding of the material.
CO2:The course Progresses Systematically from descriptions & the individual elements of System designs and ends with discussion of measurement techniques for evaluating components & systems

 4
EL-533 Solid State Devices

CO1:The syllabus provide an introduction to theory of Semiconductor Device.
CO2:The emphasis on vital understanding of both the operation of present day devices will be benefited of present day device will be benefited to further development of new Semiconductor device in the field.

 4
EL- 534 Instrumentation

CO1:At the end & the course , Students are upload in the area of measurement and indirectly allied to that of laboratory teaching.
CO2:The primary empress is on the measurement of Physical & mechanical variables encountered in experimental investigations & indusial processes.
CO3: The Students also need to Put into action concepts of accuracy and Precision when diagnosing Problems and maintaining medical and laboratory equipment

 4
EL-535 Practicals

CO1:At the end of the Course work ,an attempt has been made to introduce the concepts of modern digital techniques and IC, for realization of various functions.
CO2:The Students are aware of experiments related with Microware & C-programming strong emphasis is placed on basic experiments of Electronics communication.

 4
Semester - II
Course Code Course Title Outcome Credit
EL - 421 Digital Signal Processing

CO1: The students will learn basic Principles of Digital Signal processing and roll of Signal functions in signal processing.
CO2:Student’s may aware with system properties and basic of Fourier, Laplace and other transformations and basic terms associated with properties and transformation.
CO3: The basic introduction of Discrete, Fourier, Transformations (DFT), DDFT, IDFT and their utility in digital filter designing.
CO4:The Applications of Digital signal processing are briefly cover in this syllabus. So, students learn and thing about their present and future applications.

 4
EL- 422 Op Amp & Circuit Designing

CO1: The Student Will relays Practical Application or Operational They Learn the basic term Associated with op Amp to.
CO2:the Student may Premier general linear applications of Op Amp this concept may help them to think about special Application about Op Amp
CO3: The student may understand the basic design concept of the use of Op Amp single and dual power supply they may also learn about the use of feedback circuit Op Amp
CO4:A student may aware with basic idea of interfacing of and Op Amp for ADC & DAC Circuit.

 4
EL-423 Electromagnetic Fields and Waves

CO1: At the end of the course, the students will be able to understand the basic concepts nucleus and its properties.
CO2:To gain the knowledge on elementary particles.

 4
EL- 424 Electronic Communication-I

CO1: The course provides excitement of the electronic communication field as well as background essential for advanced study in communication systems.
CO2:The practicing students will find it of service to update their knowledge in the field.

 4
EL-425 Practicals

CO1: At the end of the Course work, the students are familiar about the design and analysis of all the Basic semiconductor Circuit Apart from discrete Component.
CO2:Circuits, the design procedure for using IC operational amplifiers in various circuits is discussed.
CO3: Students are aware of operation of transducers.

 4
Semester - I
Course Code Course Title Outcome Credit
EL-411 Mathematical Methods

CO1: At the end of the course, the students will be able to use different mathematical methods to study problems in non-linear sciences.
CO2: Understand the methods to ordinary differential equations. understand the methods to solve Nonlinear Schrodinger type equations
CO3: Uunderstand the concepts and application of solutions.

 4
EL- 412 Microcontroller and Applications

CO1:Being Advance subject, Microcontroller and its application is introduced in the curriculum.
CO2: In the field of electronics & Instrumentation the micro controller base circuits play important roll.
CO3: Therefore the employability of the student's in the Industry increases.

 4
EL-413 Measurement, Instrumentation and Experimental Planning

CO1: At the end of the course, the students will be able to acquire the knowledge about the different errors occurring during measurement.
CO2: Understand the principle behind the instrumentation for measurement.
CO3: Identify the various transducers involved in measurement .

 4
EL- 414 C and CAD for Electronics

CO1: At the end of the course, the students will learn higher level language programming and their basic.
CO2: The skill to write the programming using IF, FOR, WHILE and DO statement and there are aware global automatic static variables.
CO3: Student’s do best exercise for simulation for electronics circuit using simulation program per Integrated Circuit Enchases (Spice)

 4
EL-415 Practical’s

CO1: At the end of course work, students are update about skills of measurement of various electronic Components, soldering , Circuit layout etc.
CO2: The design approach is a simple step-by-step Procedure in which the student knows exactly why each Component Value is Selected.

 4
EL-415 Practical’s

CO1: At the end of course work, students are update about skills of measurement of various electronic Components, soldering , Circuit layout etc.
CO2: The design approach is a simple step-by-step Procedure in which the student knows exactly why each Component Value is Selected.

 4

Eligibility Criteria

(SC/ST- 35%, OPEN/SEBC-40%)
A candidate must have passed the Bachelor’s Degree examination in Science with English as compulsory subject.
A candidate who has obtained his/her Bachelor’s Degree with Electronics as principal subject and Physics as subsidiary subject shall be considered eligible for admission to M.Sc. Electronics course.

Admission Details

All eligible candidates will be called for the counseling and admitted as per the university rules and merit of their graduation degree.

Reservation Policy

As per rules of university.

Fee Structure *

 
Grant in Aid (GIA)
Higher Payment(HP)
Self Finance (SFI)
Male Rs. 6915/- Rs. 21915/- ---
Female Rs. 4415/- Rs. 19415/- ---

*Subject to Revision Periodically

Ph.D.

Department of Physics offers Ph.D. programme in the subject of Physics.

Ph.D. Syllabus Download




Fee Structure *

*Subject to Revision Periodically

M.Sc. Physics (Material Science/Electronics/Theoretical physics)

M.Sc. Physics (Material Science/Electronics/Theoretical physics) is 2 years 4 semesters course

Download Syllabus Sem - I

Download Syllabus Sem - II

Download Syllabus Sem - III

Download Syllabus Sem - IV




Objective Of Program

The core objective of the MSc.-Physics programme is to prepare the students for teaching and research in the core and emerging areas of the discipline.

Program Outcome

PO1 : Fundamental Knowledge Enrichment :

The Students will obtain basic theoretical and Practical knowledge in Physics Sciences. They will be trained to complete tests like UGC-CSIR, NET, GSET, GATE etc.. Successfully. It also makes students capable of using core concepts of physics in conceptualization of domain specific viz Theoretical Physics, Material Science and Electronics.

PO2 : Critical Thinking Development :

The examination pattern for M.Sc. program Physics having the 30% weightage for problem and applications and 70% weightage given to theory. This concept develops the skills of critical thinking, program solving, evaluative learning of various techniques, and understanding the essence of the problem.

PO3 : Advanced Emerging Technology Awareness :

The Syllabus of this program consist of Advanced QM, Advance Materials science, Microelectronics and Microprocessor. So, the students avail the advance knowledge in their resign. Which enrich them through this knowledge of latest technologies that is being used in Industry as well as Research Institute. The continuous syllabi review adds value to the program for the outgoing students and make them ready to face challenging demands of the Industry.

PO4 : Advanced Tools Usage :

Computer laboratory are compulsory for all specification, so their soft skill are developed by programming. LCD project smart class room, PPT and Videos are used for regular teaching. This teaching helps them to apply the advanced tools to solve real world problems.

PO5 : Nurturing Project Planning and Management Capabilities :

The program trains students for designing and conceptualizing the software architecture, planning and managing the product development process of complex and live software projects. It also makes students understand the decision making for selection of appropriate project management capabilities.

PO6 : Real World Problem / Project Development :

Real world project provides the candidates exposure to work in the challenging and demanding environment of the industry. The project development training makes students employable and industry ready.

PO7 : Team Work and Leadership Development :

Trains students to work in a team and also to take leadership of the project management team.

Semester - I
Course Code Course Title Outcome Credit
PH-411 Mathematical Methods of Physics

CO1: At the end of the course, the students will be able to use different mathematical methods to study problems in non-linear sciences.
CO2: Understand the methods to ordinary differential equations. understand the methods to solve Nonlinear Schrodinger type equations
CO3: Uunderstand the concepts and application of solutions.

 4
PH-412 Classical Mechanics

CO1: The end of the course, the students will be able to understand.
CO2: The basic concepts on Classical Mechanics
CO3: The theorems relating to the nonlinear bodies.
CO4: The various aspects of dynamics and oscillations of bodies.

 4
PH-413 Measurement, Instrumentation and Experimental Planning

CO1: At the end of the course, the students will be able to acquire the knowledge about the different errors occurring during measurement.
CO2:Understand the principle behind the instrumentation for measurement.
CO3:Identify the various transducers involved in measurement.

 4
PH-414 General Electronics

CO1: At the end of the course, the students will be able to understand the fundamentals of working of semiconductor and special devices
CO2: Applications of electronic devices

 4
PH-415 PRACTICALS

CO1: At the end of the course, the students will be able to understand the fundamentals of working of semiconductor and special devices
CO2: Applications of electronic devices

 4
Semester - II
Course Code Course Title Outcome Credit
PH-421 QUANTUM MECHANICS - I

CO1: At the end of the course, the students will be able to understand the basics of quantum mechanics.
CO2:various physics concepts in the light of quantum mechanics.

 4
PH-422 Solid State Physics

CO1: At the end of the course, the students will be able to understand the basic concepts on properties of materials in solid state physics.
CO2: phenomenon of superconductivity and its properties.
CO3: different techniques used for synthesis and fabrication of nano-materials.

 4
PH-423 Classical Electrodynamics and Plasma Physics

CO1: At the end of the course work , the students have Knowledge of electrostatics and magneto statics explaining fundamental concepts, basic equations and self sufficient to develop the subject of electrodynamics.
CO2: To gain knowledge of electrodynamics for moving charge and radiating system.

 4
PH-424 Numerical Analysis, Computer Programming

CO1: Numerical methods & programming At the end of course, students will be able to understand some numerical methods to solve physical problems and simulate that problems by knowing some compiler languages.
CO2: At the end of the course, the students will be able to understand the basic concepts of numerical methods and programming

 4
PH-425 Practicals

CO1: At the end of the course, the students will be able to understand the fundamentals of working of semiconductor and special devices
CO2:Applications of electronic devices

 4
Semester - III
Course Code Course Title Outcome Credit
PH-531 QUANTUM MECHANICS - II

CO1: At the end of the course, the students will be able to understand the scattering and Perturbation theory.
CO2: Also understand the relativistic wave equations.

 4
PH-532 Nuclear and Particle Physics

CO1: Students have better understanding of theoretical aspects of nuclear structure models, nuclear interaction, nuclear decay and nuclear reactions.
CO2: They also learn about the structure and interaction of the sub-nuclear particles in quark models and the underlying fundamental symmetry properties.

 4
PH(E)-533 Physics of Semiconductor Devices

CO1: The syllabus provide an introduction to theory of Semiconductor Device.
CO2: The emphasis on vital understanding of both the operation of present day devices will be benefited of present day device will be benefited to further development of new Semiconductor device in the field.

 4
PH(E)-534 Microcontroller and its applications

CO1: Being Advance subject, Microcontroller and its application is introduced in the curriculum.
CO2: In the field of electronics & Instrumentation the microcontroller base circuits play important roll.
CO3: Therefore the employability of the student's in the Industry increases.

 4
PH(E)-535 Practical’s Practical’s

CO1: Some of the ‘Design, Build, and Test” type Electronic experiments are included in this lab to realise the theory of Electronics.
CO2:Programming part of the theory course PH(E)-534 (Microcontroller) learnt in the class room is practiced in this lab course.
CO3: A good hand on experience in “Electronic circuit design, Build and Test” is gained.

 4
PH(M)– 533 Crystal Growth & Characterizations

CO1: At the end of the course, the students will be able to get familiarized with various techniques involved in Crystal Growth.
CO2: At the end of the course, the students will be able to get familiarized to determine various theoretical parameters.

 4
PH(M)-534 Advanced Materials Science

CO1: The Course consist of civilization of materials to advanced materials like, smart materials, Quantum Dots, Spintronics, Ceramics, composites and macro molecules.
CO2: Nonmaterial , Synthesis of nonmaterial and advanced applications of materials are briefly explain.

 4
PH(M)-535 Practical’s

CO1: At the end of Performing material Practical’s students have ability to measurement conductivity crystal growth characterization like hardness etching etc.
CO2: Magnetic Proportion at material and aware of the non destructive technique of liquid Penetration method.

 4
PH(T)-533 Non-linear Dynamics and High-Performance-Computing

CO1: Most advanced packages and languages are learnt for simulation of Physics problem with theoretical aspects. This course also contains the parallel programming.
CO2: It is essential for all students of computing to understand the architecture and programming of parallel computing.

 4
PH(T)-534 Computational and Simulation methods in Physics

CO1: More advanced numerical techniques for solving physics problems are learnt and applied in computer simulation of physics problems to learn theoretical aspects and predictabilities.
CO2: students to handle larger simulation problems in physics.

 4
PH(T)-535 Practical’s

CO1: Some of the numerical techniques and simulation techniques learnt in the theory course PH(T)-534 are practiced in this lab course.
CO2: A good hand on experience in FORTRAN and C programming is gained.

 4
Semester - IV
Course Code Course Title Outcome Credit
PH- 541 Physics of Lasers and Lasers Applications

CO1: At the end of the course work, the student has to knowledge of the basic theory behind Laser Operation and Its properties throughout.
CO2: the treatment has been kept as simple as positive with some familiarity of electromagnetic theory and non-linear optics.

 4
PH-542 Atomic and Molecular Physics

CO1: The course presents unifies account of physics of atoms and molecules from a modern viewpoint.
CO2: At the end of the course, the students deal with of material on basic atomic physics, including atomic structure, the optical and X-ray spectra of atoms, the interaction of atom with electric and magnetic fields.

 4
PH(E)-543 MICRO ELECTRONICS

CO1: The course contains the advance topics of Microelectronics like, NMOS, CMOS, BIFET-BIMOS-BICMOS, ECL and CCD technology.
CO2: Syllabus also giving emphasis on architecture of memory devices likes PROM, EPROM, EEPROM.
CO3: Current sources multi loop feedback Amplifier, and Theory of High Frequency response of Amplifiers are briefly discuss.

 4
PH(E)- 544 Electronic Communication

CO1: The course provides excitement of the electronic communication field as well as background essential for advanced study in communication systems.
CO2: The practicing students will find it of service to update their knowledge in the field.

 4
PH(E) - 545 Practical

CO1: As part of this lab course, a full semester project is carried out on some Electronics related problem which is am electronic circuit.
CO2: The project in this lab. Includes system designing, PCB designing, using, construction and testing of the circuit.
CO3: Good training in planning and executing an Electronic project and technical skill development is the outcome.

 4
PH(M)-543 Properties of Materials

CO1: At the end of the course, the students will be able to understand the various methods involved in material characterization
CO2: At the end of the course, the students will be able to understand the importance of use of different instruments for material study.

 4
PH(M)-544 Techniques of Material Science

CO1: After the study of this paper students have capable to fundamental understanding of vacuum Technology and perspective of current vacuum application.
CO2: Also syllabus focused operation and selection of equipment for process Used in semiconductor devices, optical and related thin film technologies.

 4
PH(M) - 545 Practical

CO1: After Competition of Project Work student have knowledge scientific technique to work on advance and now growth.
CO2: Crystallization material and how to synthesis crystalline material and learn to skill about report writing.

 4
PH(T)-543 ADVANCED QUANTUM MECHANICS

CO1: At the end of the course the students will be able to understand the negativistic equations in central potential, symmentuios and application to many body systems.

 4
PH (T)-544 Group Theory and Quantum Field Theory

CO1: Discrete and continuous Symmetries in physics are learnt through group theoretical aspects and their applications in solving physics problems.
CO2:Fundamental aspects of quantum field theory and its application in understanding of fundamental interactions are also learnt in this course.

 4
PH(T)-545 Practical

CO1: As part of this lab course,upon completion of this course, students will be proficient in comprehensively studying physics problems through simulation using FORTRAN or C or Mathematica programming languages.
CO2: The project in this lab, Competence in designing, implementing, and evaluating simulation programs to analyze complex physics phenomena.
CO3: Ability to effectively communicate and present findings from the simulated study of physics problems using appropriate programming languages.

 4

Eligibility Criteria

(SC/ST- 35%, OPEN/SEBC-40%)
A candidate must have passed the Bachelor’s Degree examination in Science with English as compulsory subject.
A candidate who has obtained his/her Bachelor’s Degree with Physics as Principal subject shall be considered eligible for admission to M.Sc. Physics course.

Admission Details

All eligible candidates will be called for the counseling and admitted as per the university rules and merit of their graduation degree.

Reservation Policy

As per rules of university.

Fee Structure *

      Grant in Aid (GIA)             Higher Payment(HP)            Self Finance (SFI)    
Male           Rs. 6915/-             Rs. 21915/-                ---
Female         Rs. 4415/-             Rs. 19415/-

               ---
       

*Subject to Revision Periodically

M.Sc. Electronics

M.Sc. (Electronics) is 2 years 4 semesters course

Syllabus Download




Objective Of Program

The core objective of the MSc.- ELECTRONICS programme is to prepare the students for teaching and research in the core and emerging areas of the discipline.

Program Outcome

PO1 : Fundamental Knowledge Enrichment

The Students will obtain basic theoretical and Practical knowledge in ELECTRONICS Sciences. They will be trained to complete tests like UGC-CSIR, NET, GSET, GATE etc.. Successfully. It also makes students capable of using core concepts of ELECTRONICS.

PO2 : Critical Thinking Development

The examination pattern for M.Sc. program ELECTRONICS having the 30% weight age for problem and applications and 70% weightage given to theory. This concept develops the skills of critical thinking, program solving, evaluative learning of various techniques, and understanding the essence of the problem.

PO3 : Advanced Emerging Technology Awareness

The Syllabus of this program consist of Advanced QM, Advance, Microelectronics and Microprocessor. So, the students avail the advance knowledge in their resign. Which enrich them through this knowledge of latest technologies that is being used in Industry as well as Research Institute. The continuous syllabi review adds value to the program for the outgoing students and make them ready to face challenging demands of the Industry.

PO4 : Advanced Tools Usage

Computer laboratory are compulsory for all specification, so their soft skill are developed by programming. LCD project smart class room, PPT and Videos are used for regular teaching. This teaching helps them to apply the advanced tools to solve real world problems.

PO5 : Nurturing Project Planning and Management Capabilities

The program trains students for designing and conceptualizing the software architecture, planning and managing the product development process of complex and live software projects. It also makes students understand the decision making for selection of appropriate project management capabilities.

PO6 : Real World Problem / Project Development

Real world project provides the candidates exposure to work in the challenging and demanding environment of the industry. The project development training makes students employable and industry ready.

PO7 : Team Work and Leadership Development

Trains students to work in a team and also to take leadership of the project management team.

Intake

Grant in Aid (GIA) : 10
Higher Payment(HP) : 06
Self-finance (SFI) : 00

Program Duration

2 years

Semester - IV
Course Code Course Title Outcome Credit
EL - 541 Laser and its Applications

CO1: At the end of the course work, the student has to knowledge of the basic theory behind Laser Operation and Its properties throughout.
CO2:the treatment has been kept as simple as positive with some familiarity of electromagnetic theory and non-linear optics.

 4
EL- 542 Integrated Circuits Technology

CO1: The students learn about classification of Integrating circuits and how the IC’s are fabricated.
CO2:The students may also aware with basic steps of IC’s fabrication processes like Crystal Growth, Epitaxial growth, Oxidation Photo litho grapy diffusion and metallization.
CO3: The students are familiarize with IC fabrication methods for fabrication of BJT, FET, MOSFET and SMOS.
CO4: The students may aware with topical concept for IC’s, thay may also aware with different types of Bonding and packages for ICs

 4
EL-543 Analog & Digital Electronics

CO1: The course contains the advance topics of Microelectronics like, NMOS, CMOS, BIFET-BIMOS-BICMOS, ECL and CCD technology.
CO2:Syllabus also giving emphasis on architecture of memory devices likes PROM, EPROM, EEPROM.
CO3: Current sources multi loop feedback Amplifier, and Theory of High Frequency response of Amplifiers are briefly discuss.

 4
EL-543 Analog & Digital Electronics

CO1: The course contains the advance topics of Microelectronics like, NMOS, CMOS, BIFET-BIMOS-BICMOS, ECL and CCD technology.
CO2:Syllabus also giving emphasis on architecture of memory devices likes PROM, EPROM, EEPROM.
CO3: Current sources multi loop feedback Amplifier, and Theory of High Frequency response of Amplifiers are briefly discuss.

 4
EL- 544 Electronic Communication – II

CO1: At the end of the course work, it is to extend & Update of the Knowledge of the students to more modern Digital Communication Systems, terrestrial and microwave radio communication systems and satellite communication systems.
CO2:An attempt is mode to know the fundamental of telephone Switching traffic load & service grade.

 4
EL- 545 Practicals

CO1: As part of this lab course, a full semester project is carried out on some Electronics related problem which is am electronic circuit.
CO2:The project in this lab. Includes system designing, PCB designing, using, construction and testing of the circuit.
CO3: Good training in planning and executing an Electronic project and technical skill development is the outcome.

 4
Semester - III
Course Code Course Title Outcome Credit
EL - 531 Microwave

CO1:The students will learn about basic devices used for production and applications of Microwave frequencies.
CO2:The Devices like Tunnel Diode, MIS diode, IMPATT diode, TRAPATT diode, BARITT diode.
CO3: Students will learn about Microwave transmission lines, Smith chart, Impedance matching, Couplers and Isolators.
CO4: The students may aware with basics of Reflex klystrons, and Helix travelling wave cubes and Agile coaxial magnetrons.

 4
EL- 532 Optoelectronics

CO1:At the end of the Course work, it Provides the Students with a general understanding of the Characteristics of Optical Fibers and how they are used in a telecommunication system courses in Communication theory would be helpful for gaining a full understanding of the material.
CO2:The course Progresses Systematically from descriptions & the individual elements of System designs and ends with discussion of measurement techniques for evaluating components & systems

 4
EL-533 Solid State Devices

CO1:The syllabus provide an introduction to theory of Semiconductor Device.
CO2:The emphasis on vital understanding of both the operation of present day devices will be benefited of present day device will be benefited to further development of new Semiconductor device in the field.

 4
EL- 534 Instrumentation

CO1:At the end & the course , Students are upload in the area of measurement and indirectly allied to that of laboratory teaching.
CO2:The primary empress is on the measurement of Physical & mechanical variables encountered in experimental investigations & indusial processes.
CO3: The Students also need to Put into action concepts of accuracy and Precision when diagnosing Problems and maintaining medical and laboratory equipment

 4
EL-535 Practicals

CO1:At the end of the Course work ,an attempt has been made to introduce the concepts of modern digital techniques and IC, for realization of various functions.
CO2:The Students are aware of experiments related with Microware & C-programming strong emphasis is placed on basic experiments of Electronics communication.

 4
Semester - II
Course Code Course Title Outcome Credit
EL - 421 Digital Signal Processing

CO1: The students will learn basic Principles of Digital Signal processing and roll of Signal functions in signal processing.
CO2:Student’s may aware with system properties and basic of Fourier, Laplace and other transformations and basic terms associated with properties and transformation.
CO3: The basic introduction of Discrete, Fourier, Transformations (DFT), DDFT, IDFT and their utility in digital filter designing.
CO4:The Applications of Digital signal processing are briefly cover in this syllabus. So, students learn and thing about their present and future applications.

 4
EL- 422 Op Amp & Circuit Designing

CO1: The Student Will relays Practical Application or Operational They Learn the basic term Associated with op Amp to.
CO2:the Student may Premier general linear applications of Op Amp this concept may help them to think about special Application about Op Amp
CO3: The student may understand the basic design concept of the use of Op Amp single and dual power supply they may also learn about the use of feedback circuit Op Amp
CO4:A student may aware with basic idea of interfacing of and Op Amp for ADC & DAC Circuit.

 4
EL-423 Electromagnetic Fields and Waves

CO1: At the end of the course, the students will be able to understand the basic concepts nucleus and its properties.
CO2:To gain the knowledge on elementary particles.

 4
EL- 424 Electronic Communication-I

CO1: The course provides excitement of the electronic communication field as well as background essential for advanced study in communication systems.
CO2:The practicing students will find it of service to update their knowledge in the field.

 4
EL-425 Practicals

CO1: At the end of the Course work, the students are familiar about the design and analysis of all the Basic semiconductor Circuit Apart from discrete Component.
CO2:Circuits, the design procedure for using IC operational amplifiers in various circuits is discussed.
CO3: Students are aware of operation of transducers.

 4
Semester - I
Course Code Course Title Outcome Credit
EL-411 Mathematical Methods

CO1: At the end of the course, the students will be able to use different mathematical methods to study problems in non-linear sciences.
CO2: Understand the methods to ordinary differential equations. understand the methods to solve Nonlinear Schrodinger type equations
CO3: Uunderstand the concepts and application of solutions.

 4
EL- 412 Microcontroller and Applications

CO1:Being Advance subject, Microcontroller and its application is introduced in the curriculum.
CO2: In the field of electronics & Instrumentation the micro controller base circuits play important roll.
CO3: Therefore the employability of the student's in the Industry increases.

 4
EL-413 Measurement, Instrumentation and Experimental Planning

CO1: At the end of the course, the students will be able to acquire the knowledge about the different errors occurring during measurement.
CO2: Understand the principle behind the instrumentation for measurement.
CO3: Identify the various transducers involved in measurement .

 4
EL- 414 C and CAD for Electronics

CO1: At the end of the course, the students will learn higher level language programming and their basic.
CO2: The skill to write the programming using IF, FOR, WHILE and DO statement and there are aware global automatic static variables.
CO3: Student’s do best exercise for simulation for electronics circuit using simulation program per Integrated Circuit Enchases (Spice)

 4
EL-415 Practical’s

CO1: At the end of course work, students are update about skills of measurement of various electronic Components, soldering , Circuit layout etc.
CO2: The design approach is a simple step-by-step Procedure in which the student knows exactly why each Component Value is Selected.

 4
EL-415 Practical’s

CO1: At the end of course work, students are update about skills of measurement of various electronic Components, soldering , Circuit layout etc.
CO2: The design approach is a simple step-by-step Procedure in which the student knows exactly why each Component Value is Selected.

 4

Eligibility Criteria

(SC/ST- 35%, OPEN/SEBC-40%)
A candidate must have passed the Bachelor’s Degree examination in Science with English as compulsory subject.
A candidate who has obtained his/her Bachelor’s Degree with Electronics as principal subject and Physics as subsidiary subject shall be considered eligible for admission to M.Sc. Electronics course.

Admission Details

All eligible candidates will be called for the counseling and admitted as per the university rules and merit of their graduation degree.

Reservation Policy

As per rules of university.

Fee Structure *

 
Grant in Aid (GIA)
Higher Payment(HP)
Self Finance (SFI)
Male Rs. 6915/- Rs. 21915/- ---
Female Rs. 4415/- Rs. 19415/- ---

*Subject to Revision Periodically

Ph.D.

Department of Physics offers Ph.D. programme in the subject of Physics.

Ph.D. Syllabus Download




Fee Structure *

*Subject to Revision Periodically

M.Sc. Physics (Material Science/Electronics/Theoretical physics)

M.Sc. Physics (Material Science/Electronics/Theoretical physics) is 2 years 4 semesters course

Download Syllabus Sem - I

Download Syllabus Sem - II

Download Syllabus Sem - III

Download Syllabus Sem - IV




Objective Of Program

The core objective of the MSc.-Physics programme is to prepare the students for teaching and research in the core and emerging areas of the discipline.

Program Outcome

PO1 : Fundamental Knowledge Enrichment :

The Students will obtain basic theoretical and Practical knowledge in Physics Sciences. They will be trained to complete tests like UGC-CSIR, NET, GSET, GATE etc.. Successfully. It also makes students capable of using core concepts of physics in conceptualization of domain specific viz Theoretical Physics, Material Science and Electronics.

PO2 : Critical Thinking Development :

The examination pattern for M.Sc. program Physics having the 30% weightage for problem and applications and 70% weightage given to theory. This concept develops the skills of critical thinking, program solving, evaluative learning of various techniques, and understanding the essence of the problem.

PO3 : Advanced Emerging Technology Awareness :

The Syllabus of this program consist of Advanced QM, Advance Materials science, Microelectronics and Microprocessor. So, the students avail the advance knowledge in their resign. Which enrich them through this knowledge of latest technologies that is being used in Industry as well as Research Institute. The continuous syllabi review adds value to the program for the outgoing students and make them ready to face challenging demands of the Industry.

PO4 : Advanced Tools Usage :

Computer laboratory are compulsory for all specification, so their soft skill are developed by programming. LCD project smart class room, PPT and Videos are used for regular teaching. This teaching helps them to apply the advanced tools to solve real world problems.

PO5 : Nurturing Project Planning and Management Capabilities :

The program trains students for designing and conceptualizing the software architecture, planning and managing the product development process of complex and live software projects. It also makes students understand the decision making for selection of appropriate project management capabilities.

PO6 : Real World Problem / Project Development :

Real world project provides the candidates exposure to work in the challenging and demanding environment of the industry. The project development training makes students employable and industry ready.

PO7 : Team Work and Leadership Development :

Trains students to work in a team and also to take leadership of the project management team.

Semester - I
Course Code Course Title Outcome Credit
PH-411 Mathematical Methods of Physics

CO1: At the end of the course, the students will be able to use different mathematical methods to study problems in non-linear sciences.
CO2: Understand the methods to ordinary differential equations. understand the methods to solve Nonlinear Schrodinger type equations
CO3: Uunderstand the concepts and application of solutions.

 4
PH-412 Classical Mechanics

CO1: The end of the course, the students will be able to understand.
CO2: The basic concepts on Classical Mechanics
CO3: The theorems relating to the nonlinear bodies.
CO4: The various aspects of dynamics and oscillations of bodies.

 4
PH-413 Measurement, Instrumentation and Experimental Planning

CO1: At the end of the course, the students will be able to acquire the knowledge about the different errors occurring during measurement.
CO2:Understand the principle behind the instrumentation for measurement.
CO3:Identify the various transducers involved in measurement.

 4
PH-414 General Electronics

CO1: At the end of the course, the students will be able to understand the fundamentals of working of semiconductor and special devices
CO2: Applications of electronic devices

 4
PH-415 PRACTICALS

CO1: At the end of the course, the students will be able to understand the fundamentals of working of semiconductor and special devices
CO2: Applications of electronic devices

 4
Semester - II
Course Code Course Title Outcome Credit
PH-421 QUANTUM MECHANICS - I

CO1: At the end of the course, the students will be able to understand the basics of quantum mechanics.
CO2:various physics concepts in the light of quantum mechanics.

 4
PH-422 Solid State Physics

CO1: At the end of the course, the students will be able to understand the basic concepts on properties of materials in solid state physics.
CO2: phenomenon of superconductivity and its properties.
CO3: different techniques used for synthesis and fabrication of nano-materials.

 4
PH-423 Classical Electrodynamics and Plasma Physics

CO1: At the end of the course work , the students have Knowledge of electrostatics and magneto statics explaining fundamental concepts, basic equations and self sufficient to develop the subject of electrodynamics.
CO2: To gain knowledge of electrodynamics for moving charge and radiating system.

 4
PH-424 Numerical Analysis, Computer Programming

CO1: Numerical methods & programming At the end of course, students will be able to understand some numerical methods to solve physical problems and simulate that problems by knowing some compiler languages.
CO2: At the end of the course, the students will be able to understand the basic concepts of numerical methods and programming

 4
PH-425 Practicals

CO1: At the end of the course, the students will be able to understand the fundamentals of working of semiconductor and special devices
CO2:Applications of electronic devices

 4
Semester - III
Course Code Course Title Outcome Credit
PH-531 QUANTUM MECHANICS - II

CO1: At the end of the course, the students will be able to understand the scattering and Perturbation theory.
CO2: Also understand the relativistic wave equations.

 4
PH-532 Nuclear and Particle Physics

CO1: Students have better understanding of theoretical aspects of nuclear structure models, nuclear interaction, nuclear decay and nuclear reactions.
CO2: They also learn about the structure and interaction of the sub-nuclear particles in quark models and the underlying fundamental symmetry properties.

 4
PH(E)-533 Physics of Semiconductor Devices

CO1: The syllabus provide an introduction to theory of Semiconductor Device.
CO2: The emphasis on vital understanding of both the operation of present day devices will be benefited of present day device will be benefited to further development of new Semiconductor device in the field.

 4
PH(E)-534 Microcontroller and its applications

CO1: Being Advance subject, Microcontroller and its application is introduced in the curriculum.
CO2: In the field of electronics & Instrumentation the microcontroller base circuits play important roll.
CO3: Therefore the employability of the student's in the Industry increases.

 4
PH(E)-535 Practical’s Practical’s

CO1: Some of the ‘Design, Build, and Test” type Electronic experiments are included in this lab to realise the theory of Electronics.
CO2:Programming part of the theory course PH(E)-534 (Microcontroller) learnt in the class room is practiced in this lab course.
CO3: A good hand on experience in “Electronic circuit design, Build and Test” is gained.

 4
PH(M)– 533 Crystal Growth & Characterizations

CO1: At the end of the course, the students will be able to get familiarized with various techniques involved in Crystal Growth.
CO2: At the end of the course, the students will be able to get familiarized to determine various theoretical parameters.

 4
PH(M)-534 Advanced Materials Science

CO1: The Course consist of civilization of materials to advanced materials like, smart materials, Quantum Dots, Spintronics, Ceramics, composites and macro molecules.
CO2: Nonmaterial , Synthesis of nonmaterial and advanced applications of materials are briefly explain.

 4
PH(M)-535 Practical’s

CO1: At the end of Performing material Practical’s students have ability to measurement conductivity crystal growth characterization like hardness etching etc.
CO2: Magnetic Proportion at material and aware of the non destructive technique of liquid Penetration method.

 4
PH(T)-533 Non-linear Dynamics and High-Performance-Computing

CO1: Most advanced packages and languages are learnt for simulation of Physics problem with theoretical aspects. This course also contains the parallel programming.
CO2: It is essential for all students of computing to understand the architecture and programming of parallel computing.

 4
PH(T)-534 Computational and Simulation methods in Physics

CO1: More advanced numerical techniques for solving physics problems are learnt and applied in computer simulation of physics problems to learn theoretical aspects and predictabilities.
CO2: students to handle larger simulation problems in physics.

 4
PH(T)-535 Practical’s

CO1: Some of the numerical techniques and simulation techniques learnt in the theory course PH(T)-534 are practiced in this lab course.
CO2: A good hand on experience in FORTRAN and C programming is gained.

 4
Semester - IV
Course Code Course Title Outcome Credit
PH- 541 Physics of Lasers and Lasers Applications

CO1: At the end of the course work, the student has to knowledge of the basic theory behind Laser Operation and Its properties throughout.
CO2: the treatment has been kept as simple as positive with some familiarity of electromagnetic theory and non-linear optics.

 4
PH-542 Atomic and Molecular Physics

CO1: The course presents unifies account of physics of atoms and molecules from a modern viewpoint.
CO2: At the end of the course, the students deal with of material on basic atomic physics, including atomic structure, the optical and X-ray spectra of atoms, the interaction of atom with electric and magnetic fields.

 4
PH(E)-543 MICRO ELECTRONICS

CO1: The course contains the advance topics of Microelectronics like, NMOS, CMOS, BIFET-BIMOS-BICMOS, ECL and CCD technology.
CO2: Syllabus also giving emphasis on architecture of memory devices likes PROM, EPROM, EEPROM.
CO3: Current sources multi loop feedback Amplifier, and Theory of High Frequency response of Amplifiers are briefly discuss.

 4
PH(E)- 544 Electronic Communication

CO1: The course provides excitement of the electronic communication field as well as background essential for advanced study in communication systems.
CO2: The practicing students will find it of service to update their knowledge in the field.

 4
PH(E) - 545 Practical

CO1: As part of this lab course, a full semester project is carried out on some Electronics related problem which is am electronic circuit.
CO2: The project in this lab. Includes system designing, PCB designing, using, construction and testing of the circuit.
CO3: Good training in planning and executing an Electronic project and technical skill development is the outcome.

 4
PH(M)-543 Properties of Materials

CO1: At the end of the course, the students will be able to understand the various methods involved in material characterization
CO2: At the end of the course, the students will be able to understand the importance of use of different instruments for material study.

 4
PH(M)-544 Techniques of Material Science

CO1: After the study of this paper students have capable to fundamental understanding of vacuum Technology and perspective of current vacuum application.
CO2: Also syllabus focused operation and selection of equipment for process Used in semiconductor devices, optical and related thin film technologies.

 4
PH(M) - 545 Practical

CO1: After Competition of Project Work student have knowledge scientific technique to work on advance and now growth.
CO2: Crystallization material and how to synthesis crystalline material and learn to skill about report writing.

 4
PH(T)-543 ADVANCED QUANTUM MECHANICS

CO1: At the end of the course the students will be able to understand the negativistic equations in central potential, symmentuios and application to many body systems.

 4
PH (T)-544 Group Theory and Quantum Field Theory

CO1: Discrete and continuous Symmetries in physics are learnt through group theoretical aspects and their applications in solving physics problems.
CO2:Fundamental aspects of quantum field theory and its application in understanding of fundamental interactions are also learnt in this course.

 4
PH(T)-545 Practical

CO1: As part of this lab course,upon completion of this course, students will be proficient in comprehensively studying physics problems through simulation using FORTRAN or C or Mathematica programming languages.
CO2: The project in this lab, Competence in designing, implementing, and evaluating simulation programs to analyze complex physics phenomena.
CO3: Ability to effectively communicate and present findings from the simulated study of physics problems using appropriate programming languages.

 4

Eligibility Criteria

(SC/ST- 35%, OPEN/SEBC-40%)
A candidate must have passed the Bachelor’s Degree examination in Science with English as compulsory subject.
A candidate who has obtained his/her Bachelor’s Degree with Physics as Principal subject shall be considered eligible for admission to M.Sc. Physics course.

Admission Details

All eligible candidates will be called for the counseling and admitted as per the university rules and merit of their graduation degree.

Reservation Policy

As per rules of university.

Fee Structure *

      Grant in Aid (GIA)             Higher Payment(HP)            Self Finance (SFI)    
Male           Rs. 6915/-             Rs. 21915/-                ---
Female         Rs. 4415/-             Rs. 19415/-

               ---
       

*Subject to Revision Periodically

M.Sc. Electronics

M.Sc. (Electronics) is 2 years 4 semesters course

Syllabus Download




Objective Of Program

The core objective of the MSc.- ELECTRONICS programme is to prepare the students for teaching and research in the core and emerging areas of the discipline.

Program Outcome

PO1 : Fundamental Knowledge Enrichment

The Students will obtain basic theoretical and Practical knowledge in ELECTRONICS Sciences. They will be trained to complete tests like UGC-CSIR, NET, GSET, GATE etc.. Successfully. It also makes students capable of using core concepts of ELECTRONICS.

PO2 : Critical Thinking Development

The examination pattern for M.Sc. program ELECTRONICS having the 30% weight age for problem and applications and 70% weightage given to theory. This concept develops the skills of critical thinking, program solving, evaluative learning of various techniques, and understanding the essence of the problem.

PO3 : Advanced Emerging Technology Awareness

The Syllabus of this program consist of Advanced QM, Advance, Microelectronics and Microprocessor. So, the students avail the advance knowledge in their resign. Which enrich them through this knowledge of latest technologies that is being used in Industry as well as Research Institute. The continuous syllabi review adds value to the program for the outgoing students and make them ready to face challenging demands of the Industry.

PO4 : Advanced Tools Usage

Computer laboratory are compulsory for all specification, so their soft skill are developed by programming. LCD project smart class room, PPT and Videos are used for regular teaching. This teaching helps them to apply the advanced tools to solve real world problems.

PO5 : Nurturing Project Planning and Management Capabilities

The program trains students for designing and conceptualizing the software architecture, planning and managing the product development process of complex and live software projects. It also makes students understand the decision making for selection of appropriate project management capabilities.

PO6 : Real World Problem / Project Development

Real world project provides the candidates exposure to work in the challenging and demanding environment of the industry. The project development training makes students employable and industry ready.

PO7 : Team Work and Leadership Development

Trains students to work in a team and also to take leadership of the project management team.

Intake

Grant in Aid (GIA) : 10
Higher Payment(HP) : 06
Self-finance (SFI) : 00

Program Duration

2 years

Semester - IV
Course Code Course Title Outcome Credit
EL - 541 Laser and its Applications

CO1: At the end of the course work, the student has to knowledge of the basic theory behind Laser Operation and Its properties throughout.
CO2:the treatment has been kept as simple as positive with some familiarity of electromagnetic theory and non-linear optics.

 4
EL- 542 Integrated Circuits Technology

CO1: The students learn about classification of Integrating circuits and how the IC’s are fabricated.
CO2:The students may also aware with basic steps of IC’s fabrication processes like Crystal Growth, Epitaxial growth, Oxidation Photo litho grapy diffusion and metallization.
CO3: The students are familiarize with IC fabrication methods for fabrication of BJT, FET, MOSFET and SMOS.
CO4: The students may aware with topical concept for IC’s, thay may also aware with different types of Bonding and packages for ICs

 4
EL-543 Analog & Digital Electronics

CO1: The course contains the advance topics of Microelectronics like, NMOS, CMOS, BIFET-BIMOS-BICMOS, ECL and CCD technology.
CO2:Syllabus also giving emphasis on architecture of memory devices likes PROM, EPROM, EEPROM.
CO3: Current sources multi loop feedback Amplifier, and Theory of High Frequency response of Amplifiers are briefly discuss.

 4
EL-543 Analog & Digital Electronics

CO1: The course contains the advance topics of Microelectronics like, NMOS, CMOS, BIFET-BIMOS-BICMOS, ECL and CCD technology.
CO2:Syllabus also giving emphasis on architecture of memory devices likes PROM, EPROM, EEPROM.
CO3: Current sources multi loop feedback Amplifier, and Theory of High Frequency response of Amplifiers are briefly discuss.

 4
EL- 544 Electronic Communication – II

CO1: At the end of the course work, it is to extend & Update of the Knowledge of the students to more modern Digital Communication Systems, terrestrial and microwave radio communication systems and satellite communication systems.
CO2:An attempt is mode to know the fundamental of telephone Switching traffic load & service grade.

 4
EL- 545 Practicals

CO1: As part of this lab course, a full semester project is carried out on some Electronics related problem which is am electronic circuit.
CO2:The project in this lab. Includes system designing, PCB designing, using, construction and testing of the circuit.
CO3: Good training in planning and executing an Electronic project and technical skill development is the outcome.

 4
Semester - III
Course Code Course Title Outcome Credit
EL - 531 Microwave

CO1:The students will learn about basic devices used for production and applications of Microwave frequencies.
CO2:The Devices like Tunnel Diode, MIS diode, IMPATT diode, TRAPATT diode, BARITT diode.
CO3: Students will learn about Microwave transmission lines, Smith chart, Impedance matching, Couplers and Isolators.
CO4: The students may aware with basics of Reflex klystrons, and Helix travelling wave cubes and Agile coaxial magnetrons.

 4
EL- 532 Optoelectronics

CO1:At the end of the Course work, it Provides the Students with a general understanding of the Characteristics of Optical Fibers and how they are used in a telecommunication system courses in Communication theory would be helpful for gaining a full understanding of the material.
CO2:The course Progresses Systematically from descriptions & the individual elements of System designs and ends with discussion of measurement techniques for evaluating components & systems

 4
EL-533 Solid State Devices

CO1:The syllabus provide an introduction to theory of Semiconductor Device.
CO2:The emphasis on vital understanding of both the operation of present day devices will be benefited of present day device will be benefited to further development of new Semiconductor device in the field.

 4
EL- 534 Instrumentation

CO1:At the end & the course , Students are upload in the area of measurement and indirectly allied to that of laboratory teaching.
CO2:The primary empress is on the measurement of Physical & mechanical variables encountered in experimental investigations & indusial processes.
CO3: The Students also need to Put into action concepts of accuracy and Precision when diagnosing Problems and maintaining medical and laboratory equipment

 4
EL-535 Practicals

CO1:At the end of the Course work ,an attempt has been made to introduce the concepts of modern digital techniques and IC, for realization of various functions.
CO2:The Students are aware of experiments related with Microware & C-programming strong emphasis is placed on basic experiments of Electronics communication.

 4
Semester - II
Course Code Course Title Outcome Credit
EL - 421 Digital Signal Processing

CO1: The students will learn basic Principles of Digital Signal processing and roll of Signal functions in signal processing.
CO2:Student’s may aware with system properties and basic of Fourier, Laplace and other transformations and basic terms associated with properties and transformation.
CO3: The basic introduction of Discrete, Fourier, Transformations (DFT), DDFT, IDFT and their utility in digital filter designing.
CO4:The Applications of Digital signal processing are briefly cover in this syllabus. So, students learn and thing about their present and future applications.

 4
EL- 422 Op Amp & Circuit Designing

CO1: The Student Will relays Practical Application or Operational They Learn the basic term Associated with op Amp to.
CO2:the Student may Premier general linear applications of Op Amp this concept may help them to think about special Application about Op Amp
CO3: The student may understand the basic design concept of the use of Op Amp single and dual power supply they may also learn about the use of feedback circuit Op Amp
CO4:A student may aware with basic idea of interfacing of and Op Amp for ADC & DAC Circuit.

 4
EL-423 Electromagnetic Fields and Waves

CO1: At the end of the course, the students will be able to understand the basic concepts nucleus and its properties.
CO2:To gain the knowledge on elementary particles.

 4
EL- 424 Electronic Communication-I

CO1: The course provides excitement of the electronic communication field as well as background essential for advanced study in communication systems.
CO2:The practicing students will find it of service to update their knowledge in the field.

 4
EL-425 Practicals

CO1: At the end of the Course work, the students are familiar about the design and analysis of all the Basic semiconductor Circuit Apart from discrete Component.
CO2:Circuits, the design procedure for using IC operational amplifiers in various circuits is discussed.
CO3: Students are aware of operation of transducers.

 4
Semester - I
Course Code Course Title Outcome Credit
EL-411 Mathematical Methods

CO1: At the end of the course, the students will be able to use different mathematical methods to study problems in non-linear sciences.
CO2: Understand the methods to ordinary differential equations. understand the methods to solve Nonlinear Schrodinger type equations
CO3: Uunderstand the concepts and application of solutions.

 4
EL- 412 Microcontroller and Applications

CO1:Being Advance subject, Microcontroller and its application is introduced in the curriculum.
CO2: In the field of electronics & Instrumentation the micro controller base circuits play important roll.
CO3: Therefore the employability of the student's in the Industry increases.

 4
EL-413 Measurement, Instrumentation and Experimental Planning

CO1: At the end of the course, the students will be able to acquire the knowledge about the different errors occurring during measurement.
CO2: Understand the principle behind the instrumentation for measurement.
CO3: Identify the various transducers involved in measurement .

 4
EL- 414 C and CAD for Electronics

CO1: At the end of the course, the students will learn higher level language programming and their basic.
CO2: The skill to write the programming using IF, FOR, WHILE and DO statement and there are aware global automatic static variables.
CO3: Student’s do best exercise for simulation for electronics circuit using simulation program per Integrated Circuit Enchases (Spice)

 4
EL-415 Practical’s

CO1: At the end of course work, students are update about skills of measurement of various electronic Components, soldering , Circuit layout etc.
CO2: The design approach is a simple step-by-step Procedure in which the student knows exactly why each Component Value is Selected.

 4
EL-415 Practical’s

CO1: At the end of course work, students are update about skills of measurement of various electronic Components, soldering , Circuit layout etc.
CO2: The design approach is a simple step-by-step Procedure in which the student knows exactly why each Component Value is Selected.

 4

Eligibility Criteria

(SC/ST- 35%, OPEN/SEBC-40%)
A candidate must have passed the Bachelor’s Degree examination in Science with English as compulsory subject.
A candidate who has obtained his/her Bachelor’s Degree with Electronics as principal subject and Physics as subsidiary subject shall be considered eligible for admission to M.Sc. Electronics course.

Admission Details

All eligible candidates will be called for the counseling and admitted as per the university rules and merit of their graduation degree.

Reservation Policy

As per rules of university.

Fee Structure *

 
Grant in Aid (GIA)
Higher Payment(HP)
Self Finance (SFI)
Male Rs. 6915/- Rs. 21915/- ---
Female Rs. 4415/- Rs. 19415/- ---

*Subject to Revision Periodically

Ph.D.

Department of Physics offers Ph.D. programme in the subject of Physics.

Ph.D. Syllabus Download




Fee Structure *

*Subject to Revision Periodically
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VNSGU
VNSGU
Veer Narmad South Gujarat University

The Registrar,
Veer Narmad South Gujarat University
Post Box No 49, Udhna Magdalla Road
Surat – 395007, Gujarat, [INDIA]

info@vnsgu.ac.in

+91 (0261) 2227141 to 2227146
+91 (0261) 2388888

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