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Lecture
Quantum Field Theory: Particle Interactions
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Related lectures (24)
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Magnetic Spin: Elementary Particles and Quantum Effects
Covers magnetic spin, elementary particles, quantum effects, and the Dirac equation.
Discrete Symmetries Introduction
Introduces the concept of discrete symmetries in Quantum Field Theory and their impact on particles and anti-particles.
Interaction by Particle Exchange and QED
Explores the computation of decay and scattering rates, focusing on Lorentz invariant Matrix Element and the Feynman rules for Quantum Electrodynamics (QED).
The Dirac equation and spin
Explores the interpretation of energy degeneracy, non-commutativity, spin operators, helicity, and discrete symmetries in the Dirac equation.
The Weak Interaction
Explores parity, intrinsic particle parities, V-A structure, chiral and helicity properties, and evidence for the V-A nature of weak interactions.
Particle Physics: Standard Model overview
Covers Particle Physics, elementary particles, fundamental forces, the Standard Model, and precision physics in late 20th-century physics.
Discrete Symmetries: Introduction
Introduces discrete symmetries in Quantum Field Theory and discusses their implications in nature and interactions.
Quantum Fluids: Cross Section & Lifetime
Covers the concepts of cross section and lifetime in quantum fluids, focusing on transition and differential probabilities.
Quantum Optics: Harmonic Oscillator
Covers the enhanced sensitivity of the LIGO gravitational wave detector using squeezed states of light.
The Higgs Mechanism: Unveiling Mass Generation
Explores the Higgs mechanism, solving the issue of massless gauge bosons and predicting masses of gauge bosons.
