Lectures related to Lorentz Transformation and Particle Representation

Explores the Lorentz transformation in Quantum Theory, emphasizing Fock space representation and momentum concepts.

Poincaré Irreps 2: Little Group and Induced Representation

Explores Poincaré irreducible representations, Little Group, and induced representation in the context of momentum eigenstates.

Overview of Particle Physics and Rutherford Scattering

Covers the constituents of matter, fundamental forces, the Standard Model, natural units, and particle interaction experiments.

Special and General Relativity

Introduces special and general relativity, Einstein equations, and gravitational dynamics.

Representation of Lorentz Fields

Explains the representation of Lorentz fields and the concept of gravitons and gravitinos.

Lie Groups: Representations and Transformations

Explores Lie groups, scalar fields, and vector spaces transformations.

Quantum Field Theory: Poincaré Group

Explores Einsteinian relativity, the Lorentz group, and Poincaré transformations, emphasizing proper and non-orthochronous components.

Lorentz Transformations and Covariant Tensors

Explores Lorentz transformations, covariant tensors, rotational invariance, and linear transformations in vector spaces.

Plasma Collisions: Coulomb Force

Analyzes Coulomb collisions between charged particles and the conservation of energy, momentum, and angular momentum.

Radiation-reaction Force: Lagrangian Formulation

Covers the radiation-reaction force, conservation of momentum, and correct force expressions.

Relativistic Charged Particle Dynamics

Covers the equation of motion for a relativistic charged particle and Lorentz transformations, along with tensors and electrodynamics.

Quantum Field Theory II: EM Field and Particle States

Covers the EM field and particle states in quantum field theory.

Lorentz Transformations: Symmetries and Boosts

Explores Lorentz transformations, boosts, and symmetries in Newtonian mechanics.

Momentum and Impulse: Conservation and Center of Mass

Explores momentum, impulse, and conservation principles in dynamic systems.

Symmetries and Conservation Laws

Explores symmetries, conservation laws, and their role in physics.

Vector Fields and Lorentz Tensors: Representation Theory

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

Relativistic Larmor Formula: Lagrangian for Electrodynamics

Covers the relativistic Larmor formula, synchrotron radiation, and Lagrangian for electrodynamics.

Conservation of Momentum and Kinetic Energy

Explores conservation of momentum and kinetic energy in collisions, emphasizing the importance of understanding collision outcomes.

Tensors and Lorentz Transformations

Covers tensors, Lorentz transformations, and electrodynamics in relativistic notation.

Particle Detection: Stable Particles and Lifetime

Explores the detection of stable particles in particle physics experiments, covering observed and unobserved particles, their lifetimes, and the impact of Lorentz boost.