Chirality & Helicity: Understanding QFT

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Spinorial Fields: Lorentz Group Representation

Covers the most general representation of Lorentz group on spinorial fields.

Quantum Field Theory: AQFT

Covers Advanced Quantum Field Theory with a focus on spinors, wave functions, rotations, and constraints.

Vector Fields and Lorentz Tensors: Representation Theory

Covers the transformation properties of vector fields and their representation in Lorentz tensors.

Quantum Field Theory: Lecture 9

Covers relativistically normalized states, Lorentz invariance, and scalar field representations in quantum field theory.

EM Field: Discrete Symmetries

Covers EM Field and Discrete Symmetries, emphasizing the importance of symmetries in quantum field theory.

Quantization of Spin in QFT

Covers the quantization of spin in Quantum Field Theory, focusing on induced representations and unitary irreps.

The Dirac Equation

Explores the development and implications of the Dirac equation, including its solutions, the Dirac sea concept, and the discovery of the anti-electron.

Discrete Symmetries: Asymptotic States and S-matrix

Covers the concept of discrete symmetries, focusing on the introduction to asymptotic states and S-matrix.

Standard Model Overview

Provides an in-depth analysis of the Standard Model, covering topics such as the Higgs mechanism, gauge boson interactions, and the role of chirality in particle physics.

Lie Algebra of Lorentz Group

Covers the Lie algebra of the Lorentz group, focusing on boosts, rotations, and transformations.