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Lecture
Quantum Field Theory II: EM Field and Particle States
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Related lectures (29)
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EM Field: Discrete Symmetries
Covers EM Field and Discrete Symmetries, emphasizing the importance of symmetries in quantum field theory.
EM Field: Discrete Symmetries
Explores electromagnetic fields and discrete symmetries in theoretical physics.
Relativistic Equation of Motion
Explores spacetime structure, 4-vectors, Lorentz force, and dispersion relation in relativistic motion.
Relativistic Larmor Formula: Synchrotron Radiation
Explores the relativistic Larmor formula and synchrotron radiation in the context of accelerated charged particles and electromagnetic fields.
Gupta-Bleuler Quantization
Covers the Gupta-Bleuler quantization method in Quantum Field Theory, focusing on redundancy in the electromagnetic field and the recovery of Maxwell equations.
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Covers Lorentz transformations, Maxwell equations, and charge conservation in Lorentz invariant physics.
Special and General Relativity
Introduces special and general relativity, Einstein equations, and gravitational dynamics.
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Discusses defining tensors, space-time dimensionality, and challenges in formulating a relativistic theory of gravity.
EM Field: Quantum Field Theory II
Covers the electromagnetic (EM) field in Quantum Field Theory II, discussing gauge transformations, symmetry principles, and field quantization.
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Covers the dynamics of electromagnetic fields and flat space-time properties.
