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Quantum Field Theory I: Introduction to Relativistic Quantum Field Theory
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Related lectures (24)
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Quantum Field Theory: Fundamentals and Applications
Introduces Quantum Field Theory, covering paths to QFT, fields, weak interactions, and the Standard Model of particle Physics.
Discrete Symmetries Introduction
Introduces the concept of discrete symmetries in Quantum Field Theory and their impact on particles and anti-particles.
Pseudonambulgol from Bosons: Methane and Effective Field Theory
Explores the relationship between methane and effective field theory, focusing on the impact of multi-poles on the electrostatic potential between molecules.
The Higgs Mechanism: Unveiling Mass Generation
Explores the Higgs mechanism, solving the issue of massless gauge bosons and predicting masses of gauge bosons.
Quantum Field Theory II: Gauge Theories
Explores Quantum Field Theory II, emphasizing Gauge Theories, including QED, fermion masses, vector bosons, and the Higgs mechanism.
Probability and Statistics for Physics
Introduces probability and statistics concepts in physics, exploring the Standard Model and practical applications.
Particle Physics: Symmetry and Conservation Laws
Explores particle physics, focusing on symmetry and conservation laws in physics.
Time Reversal Symmetry
Explores time reversal symmetry, invariance under parity, eigenstates, and spin in quantum physics.
Global Conservation Laws
Explores the dynamical consequences of symmetry, emphasizing conservation laws and the role of Noether currents.
Advanced Physics: Energy Conservation
Covers rotation, collisions, and energy conservation in advanced physics.
