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Lecture
Discrete Symmetries: Introduction
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Related lectures (28)
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EM Field: Discrete Symmetries
Covers EM Field and Discrete Symmetries, emphasizing the importance of symmetries in quantum field theory.
Symmetries and Groups in Quantum Mechanics
Covers the role of symmetries and groups in quantum mechanics, focusing on SU2 and SU3, their properties, and implications for physical theories.
Discrete Symmetries: P and T
Covers the introduction to Parity (P) and Time Reversal (T) symmetries in Quantum Mechanics.
Symmetries of Navier-Stokes Equations
Explores the symmetries of Navier-Stokes equations in periodic boxes, including translations, transformations, rotations, and scaling.
Dirac Equation: Properties and Solutions
Explores the Dirac equation properties, solutions, antiparticles, and spin concepts.
Discrete Symmetries Introduction
Covers the introduction to discrete symmetries and the violation of symmetry by weak interactions.
Wigner Theorem; Translation Symmetry
Explores the Wigner theorem, translation symmetry, eigenstates, and wave functions in quantum physics.
Tensors and Lorentz Transformations
Covers tensors, Lorentz transformations, and electrodynamics in relativistic notation.
Spinorial Fields: Lorentz Group Representation
Covers the most general representation of Lorentz group on spinorial fields.
Asymptotic States and S-matrix: Operators
Explores asymptotic states, S-matrix, and operators in quantum field theory, emphasizing the role of discrete symmetries and complete sets of states.
