Quantum Mechanics -1
Introductory course in Quantum Mechanics
- Basics of Quantum Mechanics
- Quantum Dynamics
- Angular momentum
- The Hydrogen atom
M.Sc. Physics
Semester: II
Instructor: Dr. Jimmy Sebastian
Quantum Mechanics -1
Introductory course in Quantum Mechanics
- Basics of Quantum Mechanics
- Quantum Dynamics
- Angular momentum
- Solutions of Schrodinger equation and Approximation Methods
M.Sc. Physics
Semester: II
Instructor: Dr. Jimmy Sebastian
PH4C12 NUCLEAR AND PARTICLE PHYSICS
M.Sc Physics Semester -4
4 credit course (72hrs - 4 hrs/week)
Instructor: Dr. Pius Augustine
This course is for III SEM PG students.It is a 4 credit course with 4 periods/week. It has 5 modules and gives you an idea about microprocessors, microcontrollers, and semiconductor devices in detail.
An advanced course in Quantum Mechanics
1. Time Dependent Perturbation Theory
2. Scattering
3. Relativistic Quantum Mechanics
4. Elements of Field Theory
M.Sc. Physics
Semester: III
Instructor: Dr. Jimmy Sebastian
M.Sc Physics - Semester III (Elective)
Unit I Integrated Circuit Fabrication and Characteristics (18 Hrs)
Unit II Basics of Digital Signal Processing (18 Hrs)
Unit III DSP Techniques (18 Hrs)
3 hrs/week
Handled by: Dr. Pius Augustine
An online platform to study the principle/theory/algorithm behind our practicals involving - Advanced Electronics and Computational Physics.
LOGIN ON: TUE, WED and THURS last 2 hrs From JUNE2nd 2020 onwards
- Qunatum Mechanics Fundamentals
- Quantum Dynamics
- Rotation in Quantum Mechanics
- Approximation Methods
Course Outcomes
(i) To understand the basic idea about the techniques used in physics
(ii) Apply to problems with the help of computers when they cannot be solved analytically with pencil and paper since the underlying physical system is very complex.
(iii) Help students to evaluate and develop their own Algorithms of every method described in the syllabus.