Academics

Department of Physics

graduate program

Offered Programs:

Course Scheme for Graduate Programs

First Semester

Course No. Title of Course Credit Hours Marks
Phy-501 Mathematical Methods of Physics-I
3
100
Phy-502 Classical Mechanics
3
100
Phy-503 Electronics  and Communication Theory
3
100
Phy-504 Thermal & Statistical Physics
3
100
Phy-505 Electronics Laboratory
3
100

Second Semester

Course No. Title of Course Credit Hours Marks
Phy-506 Electrodynamics
3
100
Phy-507 Quantum Mechanics-I
3
100
Phy-508 Mathematical Methods of Physics-II
3
100
Phy-509 Solid State Physics
3
100
Phy-510 Modern Physics and Electricity-Magnetism Lab.
3
100

Third Semester

Course No. Title of Course Credit Hours Marks
Phy-601 Quantum Mechanics II
3
100
Phy-602 Laser Physics
3
100
Phy-603 Plasma Physics
3
100
Phy-604 Computer Science (theory + lab.)
3
100
Phy-605 Nuclear Physics
3
100

Fourth Semester

Course No. Title of Course Credit Hours Marks
COMPULSORY SUBJECTS
Phy-606 Semiconductor Optoelectronics
3
100
Phy-607 Medical And Health Physics
3
100
Phy-608 Environmental Physics
3
100
OPTIONAL (Any one of the following)
Phy-609 Advance Electronics
3
100
Phy-610 Advance Electronics Lab.
3
100
OR
Phy-611 Atmospheric Science & Meteorology
3
100
Phy-612 Atmospheric Science & Meteorology Lab.
3
100
OR
 

THESIS

06
200

Note: Research for Thesis will be started in the 3rd Semester and completed at the end of 4th Semester.

Course Scheme for M.Phil Applied Physics

1 st Semester

Requirement for the award of M.Phil Degree is to pass 8 Courses and Thesis (24+6 Credit Hours)

Credit Hours

Marks

Phy-701

Plasma Physics

 

100

Phy-702

Physics of Materials

3

100

Phy-703

Atmospheric Physics

3

100

Phy-704

Lasers

3

100

Phy-709

Health and Medical Physics

3

100

Phy-711

Atmospheric Electricity

3

100

Phy-715

Nano Physics and Nano Technologies

3

100

Phy-716

High Temperature Superconductivity

3

100

Phy-717

Fractal Analysis

3

100

Phy-718

Photonics and Optoelectronics

3

100

2 nd Semester

Requirement for the award of M.Phil Degree is to pass 8 Courses and Thesis (24+6 Credit Hours)

 

 

Phy-705

Experimental Techniques

   

Phy-706

Cloud Physics

3

100

Phy-707

Advanced Lasers & Techniques

3

100

Phy-708

Applied Meterology

3

100

Phy-710

Physics of Advanced Materials

3

100

Phy-712

Advanced Plasma Physics Techniques & Applications

3

100

Phy-713

Environmental Physics

3

100

Phy-714

Computer programming

3

100

Phy-719

Applied Optics

3

100

3 rd & 4 th Semester

The semesters 3rd and 4th are allocated for research project.

 

 

Phy-800

Thesis

 

 

Ph.D. Program

The Department is also offering Ph.D. programme in the important areas of Applied Physics including Laser Material Interaction, Laser Induced Plasma, Thin Film Deposition etc. Four Ph.D. has already been produced in accordance with the HEC latest criteria.

Course Scheme for Ph.D Physics
 

The department is offering courses from the following list in each Semester

Credit Hours

Marks

Phy-701

Plasma Physics

 3

100

Phy-702

Physics of Materials

3

100

Phy-703

Atmospheric Physics

3

100

Phy-704

Lasers

3

100

Phy-705

Experimental Techniques

3

100

Phy-706

Cloud Physics

3

100

Phy-707

Advanced Lasers & Techniques

3

100

Phy-708

Applied Meterology

3

100

Phy-709

Health and Medical Physics

3

100

Phy-710

Physics of Advanced Materials

3

100

Phy-711

Atmospheric Electricity

3

100

Phy-712

Advanced Plasma Physics Techniques & Applications

3

100

Phy-713

Environmental Physics

3

100

Phy-714

Computer programming

3

100

Phy-715

Nano Physics and Nano Technologies

3

100

Phy-716

High Temperature Superconductivity

3

100

Phy-717

Fractal Analysis

3

100

Phy-718

Photonics and Optoelectronics

3

100

Phy-719

Applied Optics

3

100

Phy-720

Quantum Optics.

3

100

Phy-721

Optical properties of materials.

3

100

Phy-722

Laser Matter Interaction.

3

100

Phy-723

Physics of Magnetism and Magnetic Materials.

3

100

Phy-724

Quantum Transport and Applications.

3

100

Phy-725

Nanobiophysics.

3

100

Phy-726

Spectroscopy.

3

100

Phy-727

Physics of Renewable Energy Sources.

3

100

Phy-728

Nanomagnetism and spintronics.

3

100

Phy-729

Advanced Optoelectronics.

3

100

 

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