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M.Phil Physics

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Program Overview

Credit Hours

32

Duration

2 Years

Semesters

4

Attendance

Full-time

The M.Phil Physics program at Superior University is a rigorous 2-year postgraduate research degree offering advanced training in quantum mechanics, condensed matter physics, nuclear physics, computational physics, electrodynamics, photonics, and applied physics. Students develop deep research expertise through advanced coursework and an original research thesis — preparing graduates for careers in research institutions, academic appointments, engineering firms, healthcare technology, and doctoral research programs.

Grounded in Superior University’s 3C Advantage Model, the program builds physicists of Character who pursue science with integrity and purpose, Courage to explore the most challenging questions in physical science, and Competence to deliver research that advances both theory and application.

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PROGRAM ACCREDITATIONS

Why Choose M.Phil Physics at Superior University?

Strong Research Faculty

Internationally qualified physicists with active research publications and collaborations.

Computational Physics Integration

Advanced MATLAB, Python, and simulation tools for postgraduate research.

Applied & Medical Physics Connections

Research tracks relevant to healthcare technology, materials science, and applied engineering.

HEC Recognized Degree

Nationally and internationally recognized postgraduate qualification.

PhD Physics Pathway

Clear academic progression to PhD research nationally and internationally.

Research Lab Facilities

Advanced physics experimentation, computation, and instrumentation labs.

Key Skills You Will Learn

Advanced Quantum Mechanics

Classical Electrodynamics

Condensed Matter Physics

Nuclear & Particle Physics

Computational Physics & Simulation

Research Design & Physics Thesis Production

Career Outcomes

Admissions & Eligibility

Domestic Applicants

Holding a 16-year degree in the relevant field with a minimum CGPA of 2.0. Securing a minimum of 50% in the Quality GAT General (NTS) or 60% in the GAT General (University).

International Applicants

Holding a 16-year degree in the relevant field with a minimum CGPA of 2.0. Securing a minimum of 50% in the Quality GAT General (NTS) or 60% in the GAT General (University).

⚠️ Important

Always refer to the Admissions Office for the current criteria, deadlines and documentation.

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Program Roadmap

Explore courses roadmap in M.Phil Physics
CourseCredit Hours
Advanced Quantum Mechanics3
Advanced Mathematical Methods of Physics3
Data Science3
Research Methodology3
Understanding of HolyQuran-I/Fehm-e-Quran-I2
Total Credit Hours14
CourseCredit Hours
Advanced Electrodynamics3
Techniques of Experimental and Computational Physics3
Machine Learning3
Mathematical Medeling and Simulation3
Understanding of HolyQuran-II/Fehm-e-Quran-II1
Total Credit Hours13
CourseCredit Hours
Research and Thesis3
Total Credit Hours3
CourseCredit Hours
Data Science3
Research Methodology3
Mathematical Modeling and Simulation3
Machine Learning3
Total Credit Hours12

TRANSFORMATIONAL JOURNEY

Discover your 3C Advantage

Character

Scientific Integrity at the Frontier of Knowledge — Physics research defines our understanding of reality itself. M.Phil Physics researchers are trained to hold themselves to the highest standards of scientific integrity — presenting results accurately, acknowledging uncertainty honestly, and contributing to the shared body of human knowledge with transparency and intellectual humility.

Courage

The Courage to Explore the Unknown Universe — Quantum mechanics, nuclear physics, and condensed matter research regularly take scientists into territory where intuition fails and only rigorous mathematical and experimental work illuminates the truth. Students are mentored to develop the intellectual courage and research persistence to pursue physics questions that push the boundaries of what is currently known.

Competence

Advanced Theoretical & Experimental Physics Mastery — Students build postgraduate-level competence in quantum mechanics, classical electrodynamics, condensed matter physics, nuclear physics, computational simulation, and experimental technique — developing the deep physics expertise demanded by research institutions, technology companies, medical physics departments, and international research programs.

FAQs

Frequently Asked Questions

2 years (4 semesters).

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