The MS Physics program is offered in three futuristic areas of Physics.
  • Nanotechnology
  • Radiation Physics
  • Theoretical Physics
The program is aimed to attract:
  • Graduate students who want to broaden their knowledge and to have hands-on experience with applicable research tools.
  • Professionals looking to remain at the forefront seeking higher education.
The Department of Physics in collaboration with National Center for Physics and various other national educational / research organizations is offering an unprecedented series of graduate programs to enhance education and research in emerging sciences and technologies. The strong support provided by NCP gives an exciting opportunity to the students to get hands on experience of working in the advanced laboratories of the country where our graduate students have been allowed access to undertake their experimental research under the joint supervision of IIU faculty and the NCP scientists.
 
Eligibility Criteria:
As per Advertisement
 

SCHEME OF STUDIES FOR MS PHYSICS

Semester Course Code Name of the Subject Credit Hours
First PHY 601 Advanced Mathematical Methods of Physics 3(3,0)
PHY 602 Electrodynamics 3(3,0)
  Elective 3(3,0)
  Elective 3(3,0)
Second PHY 607 Advanced Quantum Mechanics 3(3,0)
PHY 608 Advanced Statistical Mechanics 3(3,0)
  Elective 3(3,0)
  Elective 3(3,0)
Third and fourth PHY 699 MS Research Thesis 6(6,0)

MS elective courses with course codes

Course Code Name of the Subject Credit Hours
PHY 603 Introduction to Nanoscience and Technology 3(3,0)
PHY 604 Nuclear Radiation Safety and Security 3(3,0)
PHY 605 Optical Properties of Materials 3(3,0)
PHY 606 Radiation Physics 3(3,0)
PHY 609 Solid State Theory 3(3,0)
PHY 610 Radiation Protection and Health Physics 3(3,0)
PHY 611 Environmental Radiation Dosimetry 3(3,0)
PHY 612 Magnetism and Magnetic Materials 3(3,0)
PHY 613 Radiation Detection and Measurements 3(3,0)
PHY 614 Nuclear Tracks-Method and Applications 3(3,0)
PHY 615 Advanced Nuclear Physics 3(3,0)
PHY 616 Nanomaterials and Applications 3(3,0)
PHY 617 Experimental Techniques in Nanotechnology 3(3,0)
PHY 618 Advanced Solid State Electronic Devices 3(3,0)
PHY 619 Electronic Materials Processing 3(3,0)
PHY 620 Condensed Matter Theory I 3(3,0)
PHY 621 Optoelectronic Devices 3(3,0)
PHY 622 Physics of Lasers 3(3,0)
PHY 623 Condensed Matter Theory II 3(3,0)
PHY 624 Nonconventional Energy Resources 3(3,0)
PHY 625 Optical Communications 3(3,0)
PHY 626 Integrated Optics 3(3,0)
PHY 627 Environmental Physics 3(3,0)
PHY 628 Physics of Superconductivity 3(3,0)
PHY 629 Accelerator Techniques for Materials 3(3,0)
PHY 630 Medical Physics 3(3,0)
PHY 631 Geo Physics 3(3,0)
PHY 632 Applied Quantum Mechanics 3(3,0)
PHY 633 Plasma Physics I 3(3,0)
PHY 634 Plasma Physics II 3(3,0)
PHY 635 Quantum Field Theory I 3(3,0)
PHY 636 Particle Physics 3(3,0)
PHY 637 Quantum Field Theory II 3(3,0)
PHY 638 Nanowires Science and Technology 3(3,0)
PHY 639 Standard Model 3(3,0)
PHY 640 Conducting Polymers 3(3,0)
PHY 641 Instrumental Optics 3(3,0)
PHY 642 Nano Optics 3(3,0)
PHY 643 Synthesis of Nanomaterials 3(3,0)
PHY 644 Nano-structural Characterization Techniques 3(3,0)
PHY 645 Electronic Properties of Nanomaterials 3(3,0)
PHY 646 Relativistic Quantum Mechanics 3(3,0)
PHY 647 Bio-Photonics 3(3,0)
PHY 648 Vacuum Science & Technology 3(3,0)
PHY 649 Quantum Information Theory I 3(3,0)
PHY 650 Quantum Information Theory II 3(3,0)
PHY 651 Fluid Dynamics for Physicists 3(3,0)
PHY 652 Nanomagnetism 3(3,0)
PHY 653 Nonlinear Plasma Physics 3(3,0)
PHY 654 Physics of Semiconductor Devices 3(3,0)
PHY 655 Semiconductor Power Devices 3(3,0)
PHY 656 Physics of Micro-Fabrication
Technology 		3(3,0)
PHY 657 Optical Fiber Devices and Sensors 3(3,0)
PHY 658 Ultrafast Optics 3(3,0)
PHY 659 Fourier Optics 3(3,0)
PHY 660 Photonic Mesoscopic System 3(3,0)
PHY 661 Low Temperature Plasma 3(3,0)
PHY 662 Fuel Cells and Hydrogen Storages 3(3,0)
PHY 663 Non-Linear Dynamics 3(3,0)
PHY 664 Quantum Information and Computing 3(3,0)
PHY 665 Advance Classical Mechanics 3(3,0)
PHY 666 Industrial Plasma Physics 3(3,0)
PHY 667 Material Science I 3(3,0)
PHY 668 Material Science II 3(3,0)
PHY 669 Quantum Optics 3(3,0)
PHY 670 Group Theory 3(3,0)
PHY 671 Physics of Thin Films 3(3,0)