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Lecture
Discrete Symmetries: Introduction
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Discrete Symmetries Introduction
Introduces the concept of discrete symmetries in Quantum Field Theory and their impact on particles and anti-particles.
Discrete Symmetries Introduction
Introduces discrete symmetries, operators, and tetraquarks in quantum field theory.
Symmetries: C/P/T symmetries
Covers the symmetries of empty space, including Parity, Time reversal, and charge conjugation, with examples from Quantum Electrodynamics.
Continuous Symmetries; Parity Symmetry
Explores symmetry operations in quantum physics, including rotations and translations.
The Dirac equation and spin
Explores the interpretation of energy degeneracy, non-commutativity, spin operators, helicity, and discrete symmetries in the Dirac equation.
Untitled
Quantum Field Theory: Particle Interactions
Explores the Dirac equation, Pauli-Dirac representation, particle solutions, operators, particle types, Feynman diagrams, and quantum electrodynamics.
Discrete Symmetries: Asymptotic States and S-matrix
Covers the concept of discrete symmetries, focusing on the introduction to asymptotic states and S-matrix.
Symmetries in Particle Physics
Explores symmetries in particle physics, covering parity, charge conjugation, fermion quantum numbers, chirality, and their applications in understanding particle interactions.
Time Reversal Symmetry
Explores time reversal symmetry, invariance under parity, eigenstates, and spin in quantum physics.
