The Ph.D. 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 PHD PHYSICS

Semester Course Code Name of the Subject Credit Hours
First   Elective 3(3,0)
  Elective 3(3,0)
  Elective 3(3,0)
Second   Elective 3(3,0)
  Elective 3(3,0)
  Elective 3(3,0)
Third onwards PHY 799 PhD Research Thesis 36(36,0)

PhD Level Elective Courses with Course Codes

Course Code Name of the Subject Credit Hours
PHY 701 Nuclear Tracks in Nanotechnology 3(3,0)
PHY 702 Lasers and photonics 3(3,0)
PHY 703 Nano Structured Materials 3(3,0)
PHY 704 Optical Communications I 3(3,0)
PHY 705 Optical Communications II 3(3,0)
PHY 706 Laser Spectroscopy 3(3,0)
PHY 707 Quantum Computation I 3(3,0)
PHY 708 Quantum Computation II 3(3,0)
PHY 709 Advanced Semiconductor Device Processing 3(3,0)
PHY 710 Particle Collisions 3(3,0)
PHY 711 Experimental Plasma Physics 3(3,0)
PHY 712 Introduction to String Theory 3(3,0)
PHY 713 Surface Physics 3(3,0)
PHY 714 Classical Transport Theory 3(3,0)
PHY 715 Advanced Computational Physics 3(3,0)
PHY 716 Finite Temperature and Density Field Theory for High Energy 3(3,0)
PHY 717 Optical Fibers Devices and Sensors 3(3,0)
PHY 718 Advanced Nanomagnetism 3(3,0)
PHY 719 Advanced Nanoscience and Technology 3(3,0)
PHY 720 Advanced Materials at Nanoscale 3(3,0)
PHY 721 Heavy Ion Physics 3(3,0)
PHY 722 Advanced Plasma Physics I 3(3,0)
PHY 723 Advanced Plasma Physics II2 3(3,0)
PHY 724 Advanced Particle Physics 3(3,0)
PHY 725 Computational Electrodynamics and Nanophotonics 3(3,0)
PHY 726 Advanced Synthesis Techniques of Nanomaterials 3(3,0)
PHY 727 Advanced Characterization Techniques for Nanomaterials 3(3,0)
PHY 728 Spintronic Materials and Devices 3(3,0)
PHY 729 Physics of Early Universe 3(3,0)
PHY 730 Neutrino Physics 3(3,0)
PHY 731 Supersymmetry and Supergravity 3(3,0)
PHY 732 Kinematics of Nuclear Reactions at High Energies 3(3,0)
PHY 733 Quark – Gloun Plasma 3(3,0)
PHY 734 Advanced Quantum Optics 3(3,0)
PHY 735 Theory and Phenomenology of Extra Dimensions 3(3,0)
PHY 736 Advanced Simulation Techniques in Physics 3(3,0)
PHY 737 Advanced Topics in Condensed Matter Physics 3(3,0)
PHY 738 Astrophysics 3(3,0)
PHY 739 Application of Symmetry Groups in Physics 3(3,0)
PHY 740 Phase Transitions and Critical Phenomenon 3(3,0)
PHY 741 Functional Integral Methods in Condensed Matter Physics 3(3,0)
PHY 742 Physics of Radiotherapy 3(3,0)
PHY 743 Atmospheric Physics and Climate Change 3(3,0)
PHY 744 Radiative Processes 3(3,0)
PHY 745 Chaotic Dynamics 3(3,0)
PHY 746 Advanced Data Analysis 3(3,0)
PHY 747 Superfluidity and Superconductivity 3(3,0)
PHY 748 Composite Materials 3(3,0)
PHY 749 General Relativity and Cosmology 3(3,0)
PHY 750 Beyond Standard Model 3(3,0)
PHY 751 Advance Non-Linear Plasma Theory 3(3,0)