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MS degree

The courses offered by the FES are categorized as core courses and elective courses. A student, specializing in any area, will be required to take minimum of two core courses and remaining from elective courses. The electives may be selected with the consultation of the advisor.


PhD degree

The course work to be taken by a student will be decided by a PhD Guidance Committee and approved by the Dean of Graduate Studies. Out of the eight courses, four must be related to his/her area of specialization.




ES 511

Solid State Physics

ES 512

Fundamentals of Photonics

ES 531

Computational Methods for Engineers

ES 551

Fundamentals of Digital Systems

ES 553

Digital Signal Processing

ES 569

Advanced Quantum Mechanics






Group A

ES 521

Advanced Transform Techniques

ES 522

Advanced Fluid Mechanics

ES 523

Special Relativity

ES 524

General Relativity 

ES 526

Analytical Solution of Partial Differential Equations

ES 527

Asymptotic Methods for Differential Equations

ES 533

Numerical Methods for Partial Differential Equations

ES 534

Numerical Functional Analysis

ES 541

Variational Methods in Mechanics

ES 542

Finite Element Methods for Engineers

ES 543

Perturbation Methods

ES 544

Random Processes

ES 621

Advanced General Relativity

ES 631

Numerical Methods in Ordinary Differential Equations

ES 69X

Special Topics in Applied Mathematics

Group B

ES 514

Thin Films

ES 515

Two-Dimensional Materials and Devices

ES 516

Spintronic Devices

ES 517

Quantum Devices

ES 561

Fourier Optics

ES 562

Organic Solar Cells: Materials and Device Physics

ES 564


ES 566

Atomic & Molecular Spectroscopy

ES 576

Organic Optoelectronics

ES 577

Integrated Optics

ES 581

Advanced Experimental Techniques

ES 611

Advanced Nuclear Astrophysics

ES 612

Computational Nuclear Physics

ES 642

Organic Electroluminescence

ES 69X

Special Topics in Applied Physics

Group C

ES 513


ES 537

Reconfigurable Computing and FPGA Architecture

ES 538

Design for test and testability

ES 552

Introduction to Biophotonics

ES 554

Digital Control System

ES 555

Adaptive Filtering

ES 556

Advanced Computer Architecture

ES 557

Digital Image Processing

ES 558

Advanced Digital Signal Processing

ES 559

Digital Communication

ES 563

Laser Materials Processing

ES 565

Photonics and Optical Communication

ES 567

Photonics Devices

ES 572

Principles of Laser Engineering

ES 573

Optical Fibers and Applications

ES 574

Applications of Lasers

ES 579

Advanced Digital System Design

ES 585

Photonics Networks

ES 69X

Special Topics in Digital Systems Engineering

ES 69X

Special Topics in Photonics Engineering