M.Sc. (Physics) is a two-year postgraduate degree programme offered by our department. The student must have a valid JAM score or, qualify the departmental entrance examination can be enrolled in the M.Sc(Physics) programme. The primary objective of offering M.Sc (Physics) course is to help students understand pure Physics and its application in day-to-day life. It is a comprehensive course and finds its application in various fields especially in research and technology.
Candidates who are enrolled in the M.Sc Physics course learn about various topics associated with the concepts of Physics like Classical Mechanics, Nuclear Physics, Condensed Matter, Electronics, Electromagnetism etc. The entire course is the combination of the academic curriculum, laboratories, thesis, projects and industry-driven programmes. Students who have good analytical thinking and numerical abilities skills and want to pursue a career in a technological field can opt M.Sc Physics course.
M.Sc. (Physics)
| Programme | Subject | Duration | Essential Criteria | Is Mathematics essential in Class 10+2 level? |
| M.Sc in Physics |
Physics |
2 |
BSc (Phy, Chem, Math) |
Yes |
| JAM qualified candidates are eligible to apply for MSc programme through national level centralized counseling system (CCMN). Non-JAM candidates may contact to HoD, Department of Physics for admission in MSc (Physics) programme at NIT Manipur. |
| Programme | Seat Matrix, Number of Seats: 15 |
| OC | OB | SC | ST | OC-PWD | OB-PWD | SC-PWD | ST-PWD | Total |
|
M.Sc in Physics
|
8 |
4 |
2 |
1 |
0 |
0 |
0 |
0 |
15 |
Click here for MSc Syllebus
Click here for MSc Ordinances
Course Structure of M. Sc. Programme(Physics)
| Code Name |
SEMESTER-l |
[L-T-P-C] |
|
Code Name |
SEMESTER-2 |
[L-T-P-C] |
| PH501 |
Mathematical Physics I |
[3-1-0-8] |
|
PH502 |
Mathematical Physics-II |
[3 1 0 8] |
| PH503 |
Classical Mechanics |
[3-1-0-8] |
|
PH504 |
Electronics |
[3-1-0-8] |
| PH505 |
Quantum Mechanics-I |
[3-1-0-8] |
|
PH506 |
Quantum Mechanics -II |
[3-1-0-8] |
| PH507 |
Electrodynamics- I |
[3-1-0-8] |
|
PH508 |
Electrodynamics- II |
[3-1-0-8] |
| PH509 |
Computer Programming |
[2-0-2-6] |
|
PH510 |
Numerical methods and computational physics |
[2-0-2-6] |
| PH511 |
Physics Lab I |
[0-0-6-6] |
|
PH512 |
Physics Lab II |
[0-0-6-6] |
| |
Total credit |
44 |
|
|
Total credit |
44 |
| |
SEMESTER -III |
|
|
|
SEMESTER -IV |
|
| PH601 |
Atomic and Molecular Physics |
[3-1-0-8] |
|
PH602 |
Instrumentation |
[3-1-0-8] |
| PH603 |
Solid State Physics |
[3-1-0-8] |
|
PH604 |
Project II |
[0-0-12-12 |
| PH605 |
Nuclear and Particles |
[3-1-0-8] |
|
PH606 |
Elective -I |
[3-1-0=8] |
| PH607 |
Statistical Mechanics |
[3-1-0-8] |
|
PH608 |
Elective - II |
[3-1-0-8] |
| PH609 |
Physics Lab -III |
[0-0-6-6] |
|
PH610 |
Elective -III |
[3-1-0-8] |
| PH611 |
Project -I |
[0-0-4-4] |
|
|
Total credit |
[43] |
| |
Total credit |
42 |
|
|
Total credit |
173 |
M.Sc (physics) Syllabus details
M.Sc. Project (2023-2024)
| Tentative titles/Research area | Faculty |
| 1) Ferroelectric material synthesis and study of PE loop |
Dr. Ibetombi Soibam |
| 2) Ferromagnetic material synthesis and study of BH loop |
Dr. Ibetombi Soibam |
| 3) Synthesis of ferroelectric-ferromagnetic composite and investigation of it's various properties |
Dr. Ibetombi Soibam |
| 4) ZnO-Fe3O4/rGO nanocomposite for supercapacitor applications |
Dr. Bibhu Prasad Swain |
| 5) ZnO-CuO/rGO nanocomposite for supercapacitor applications |
Dr. Bibhu Prasad Swain |
| 6) ZnO-TiO2/rGO nanocomposite for supercapacitor applications |
Dr. Bibhu Prasad Swain
|
| 7) Silicon Nanowires/Polymer for supercapacitor applications |
Dr. Bibhu Prasad Swain
|
| 8) Studies of composite multiferroics |
Dr. Mamata Maisnam |
| 9) Gamma spectroscopy studies |
Dr. Mamata Maisnam |
| 10) Remote sensing and satellite data analysis |
Dr. Mamata Maisnam |
| 11) Zn effect on the Energy storage of Zeolite imidazole framework |
Dr. Loushambam Herojit Singh |
| 12) Understanding the role of defects on the capacitance of COx-Fe3-xO4 |
Dr. Loushambam Herojit Singh |
| 13) Modified Bamboo derived charcoal for supercapacitor |
Dr. Loushambam Herojit Singh |
| 14) Polymer Physics |
Dr. Shagolsem Lenin Singh |
| 15) Ionic Liquid |
Dr. Shagolsem Lenin Singh |
| 16) Particle dynamics in complex media |
Dr. Shagolsem Lenin Singh |
| 17) Green synthesis of metal oxide nanoparticles |
Dr. Diana Thoudam |
| 18) Metal oxide-rGO for supercapacitor applications |
Dr. Diana Thoudam |
| 19) Metal oxide-rGO for dye degradation |
Dr. Diana Thoudam |
| 20) Comparative study of spin-coated and drop-casted PVDF film on its electroactive phase |
Dr. Huidrom hemojit Singh |
| 21) Study the effect of material's physical properties on the performance of nanogenerator |
Dr. Huidrom hemojit Singh |
| 22) Synthesis and characterization of CFO decorated SiO2 |
Dr. Huidrom hemojit Singh |