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Lecture
Quantum Field Theory: Conservation Laws
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Related lectures (27)
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Field Theory: Action Principles
Discusses the application of action principles in classical field theory, focusing on Lagrange and Hamiltonian formulations.
Global Conservation Laws
Explores the dynamical consequences of symmetry, emphasizing conservation laws and the role of Noether currents.
Classical Field Theory: Lagrangian and Hamiltonian Formulation
Explores classical field theory, focusing on Lagrangian formulation and the Euler-Lagrange equations, emphasizing the property of locality in spacetime.
Discrete Symmetries Introduction
Introduces the concept of discrete symmetries in Quantum Field Theory and their impact on particles and anti-particles.
Lagrangian Mechanics: Symmetries and Conservation Laws
Explores Lagrangian mechanics, symmetries, conservation laws, and the Hamiltonian concept.
Neural Networks and Quantum Field Theory
Explores the connection between neural networks and quantum field theory, focusing on the correspondence between parameter and function spaces.
Quantum Field Theory: Noether Currents and Lorentz Symmetry
Covers the Noether currents, Lorentz symmetry, and field quantization in quantum field theory.
Principle of Least Action
Covers the principle of least action, Euler-Lagrange equations, Lagrange multipliers, and variational calculus.
Symmetry and Conservation Laws
Explores symmetry, Noether's theorem, and conservation laws in physics, emphasizing the role of time and the Hamiltonian.
Quantum Field Theory: SU(2) Symmetry and Noether's Current
Explores complex scalar fields under SU(2) symmetry and Noether's current computation.
