Lecture 1 - Recap of NRQM
Lecture 2 - Finite Step Potential: Schrodinger equation solution
Lecture 3 - Properties of wavefunction
Lecture 4 - Matrix Mechanics
Lecture 5 - Basics of STR
Lecture 6 - Natural Units
Lecture 7 - Relativistic effects in Quantum Mechanics
Lecture 8 - Building Relativistic Wave Theories
Lecture 9 - Solutions to the KG equation
Lecture 10 - Introduction to Relativistic Lagrangian
Lecture 11 - Scalar Quantum Electrodynamics (SQED)
Lecture 12 - Non-Relativistic Limit of the KG Equation: The Schrodinger Equation
Lecture 13 - Revisiting KG Equation's Negative Energy Solutions
Lecture 14 - Klein Paradox
Lecture 15 - Scalar Quantum Electrodynamics (SQED)
Lecture 16 - Dirac Theory
Lecture 17 - Dirac Equation and its solution
Lecture 18 - Dirac Spinors
Lecture 19 - Properties of Spinor
Lecture 20 - Group Theory
Lecture 21 - Rotation Groups and their Properties
Lecture 22 - Lie Group and Lorentz Boost
Lecture 23 - Group Representations - I
Lecture 24 - Group Representations - II
Lecture 25 - Symmetry and Isomorphism
Lecture 26 - Lorentz Group - I
Lecture 27 - Lorentz Group - II
Lecture 28 - Decomposition of Lorentz Group
Lecture 29 - Boost and Rotation Generators
Lecture 30 - Poincare Group
Lecture 31 - Representations of Poincare group
Lecture 32 - Solution of Dirac equation
Lecture 33 - Properties of Dirac Spinors and Probability Currents
Lecture 34 - Parity Violation and Axial Currents
Lecture 35 - Dirac interpretation for Negative Energy states
Lecture 36 - Dirac Hole Theory
Lecture 37 - Properties and Interpretations of Anti-Particle
Lecture 38 - Solutions of Massless Dirac Equation
Lecture 39 - Real Solutions of Dirac Equation
Lecture 40 - Properties of Majorana Fermions - I
Lecture 41 - Properties of Majorana Fermions - II
Lecture 42 - Examples of Majorana Fermions in different systems
Lecture 43 - Propagator Theory - I
Lecture 44 - Propagator Theory - II
Lecture 45 - Green’s Functions as Propagators
Lecture 46 - Solving for Green’s function
Lecture 47 - Photon Propagator
Lecture 48 - KG Propagator and its Properties
Lecture 49 - Scattering in SQED
Lecture 50 - Pion-Pion Scattering Channels
Lecture 51 - Pion-Pion Matrix Amplitude
Lecture 52 - Dirac Propagator and its Properties
Lecture 53 - Dyson equation and series
Lecture 54 - QED (Compton Scattering)
Lecture 55 - Dynamical Photon field processes
Lecture 56 - Employing trace theorems to calculate matrix element
Lecture 57 - Tree level QED processes
Lecture 58 - Pion mediated Processes
Lecture 59 - Loops and Renormalization
Lecture 60 - Bound states in RQM
Lecture 61 - Non-relativistic reduction of Dirac equation
Lecture 62 - Relativistic Corrections to H atom
