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Quantum Field Theory: Dirac Hamiltonian
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Geometric Quantization
Explores geometric quantization, the process of quantizing classical systems to obtain quantum systems using mathematical techniques like pseudo-differential calculus.
Quantum Field Theory: Fourier Modes
Explores Fourier modes in Quantum Field Theory, emphasizing variables transforming well under translations and the normalization of states.
EM Field: Quantum Field Theory II
Covers the electromagnetic (EM) field in Quantum Field Theory II, discussing gauge transformations, symmetry principles, and field quantization.
Quantum Physics I
Explores discrete and continuous degrees of freedom, canonical commutation relations, and the correspondence between classical and quantum mechanics.
Discrete Symmetries Introduction
Introduces discrete symmetries, operators, and tetraquarks in quantum field theory.
Quantum Field Theory: Feynman Rules
Covers the Feynman Rules in Quantum Field Theory, focusing on the proper split of terms and the solution of paradoxes.
Quantum Physics: Wave-Particle Duality
Explores wave-particle duality in quantum physics, covering interference, matter waves, and energy quantization.
Quantum Field Theory: Noether Currents and Lorentz Symmetry
Covers the Noether currents, Lorentz symmetry, and field quantization in quantum field theory.
Quantum Mechanics: Atomic to Molecular Orbitals
Explores quantum mechanics from atomic to molecular orbitals, covering the Schrödinger equation, quantum numbers, and wavefunction interpretation.
Quantum Harmonic Oscillator: Mechanics and Applications
Explores the quantum harmonic oscillator's mechanics, energy dynamics, and applications in quantum physics.
