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MS/Ph.D in Physics
Program at Glance:-
The students enrolled in our MS program up till FA08, were required to study 4 Core Courses from a particular stream and 4 Elective Courses of that stream. However, as per the recommendation of board of Studies, all MS students, henceforth, will be required to take the same 3 core courses mentioned above, and 5 electives to be selected from the courses offered by the department. The list of elective courses is currently being revised.
In addition all MS students have to work on a research problem and submit a thesis of 6 credit hours to complete their MS.
Admission Requirements:-
The admission into the graduate program are very competitive based on merit. The merit will be determined on the basis of the academic record, test and interview.
Admission Pre-Requisites
MS Admission:
- A 16 years degree in the relevant field from an accredited educational institution with first division (annual system) or CGPA2.5/4.0 (semester system) with no third division or D grade throughout the academic career.
- NTS GAT(General) with 50% marks
PhD Admission:
- MS/M.Phil or its equivalent degree in the relevant field from an accredited educational institution with CGPA of 3.0/4.0 or 70% marks with no third division or D grade throughout Academic career.
GRE Requirement:
- GRE (Subject) as per HEC policy or NTS GAT (Subject) with 60% Marks.
Scheme of Study:-
Program structure
The students enrolled in MS program are required to take 4 core courses and 4 electives courses of 24 credit hours (courses with three credit hours each) to be selected from the course offered by the department.
In addition, all MS students have to work on a research project and submit a thesis of 6 credits hours to complete their MS.
Core Courses
- Advanced Quantum Mechanics
- Advanced Electrodynamics
- Mathematical methods and Computational Techniques in Physics
- Advanced Statistical Mechanics
- Graduate Laboratory
Theses are also the core courses for the Ph.D, however, students must take one additional core course at the Ph.D level in addition to Ph.D level courses.
Electives
- Quantum Computation I
- Quantum Computation II
- Quantum optics I
- Quantum optics II
- Optical Communication and Network Design and simulation
- Plasma physics I
- Plasma physics II
- Integrated optics
- Optical fiber Devices and & sensors
- Surface physics
- Physics of semiconductors and devices
- Physics of laser
- Laser system and Engineering
- Quantum field theory
- Particle Physics I
- Particle Physics II
- Group Theory
- Relativistic Quantum Mechanics
- Atomic and Molecular Physics
- Heavy Ion Physics
- Introduction to particle Physics Phenomenology
- Nuclear Physics
- Radiation Detection and Measurement
- Particle Collision
- Gravitation and Cosmology
- Modern Semiconductor Structures
- Thermal Transport Mechanism
- Advances in thin film technology
- Advanced topics in magnetism
- Ultra short Laser and optics
- Physics of early universe
- Neutrino Physics
- Super symmetry
- Quark Gluon Plasma
- Finite Temperature and Density Field Theory for High Energy Physics
- Kinematics of Nuclear Reactions at High Energy
Gateway to multiple carriers:-
- Engineering
- Medical
- Technology
- Nano Technologist
- Materials Technologist
- Optoelectronics
- Education
- Lecturer / Professor in University / College
- Scientist
- Scientific officer in R & D organizations
- Nuclear Physicist
- And many more
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