Lectures related to Vector boson

Overview of Particle Physics and Rutherford Scattering

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

Statistical Thermodynamics: Partition Functions and Quantum Statistics

Introduces partition functions, quantum statistics, and the Einstein model for molecular behavior.

Indistinguishable Particles in Quantum Mechanics

Explores indistinguishable particles in quantum mechanics, discussing symmetry, density matrix, quantum statistics, exclusion principle, and particle behavior.

Gauge Theories And Modern Particle Physics

Covers gauge theories, modern particle physics, the standard model, and field content.

The Higgs Mechanism: Formal Aspects

Covers the formal aspects of the Higgs mechanism, explaining mass terms for scalar and gauge bosons through symmetry breaking.

Tests of the Standard Model

Covers benchmark tests of the Standard Model consistency, including measurements of Z line shape, Z, W, and WW production cross sections.

Quantum Field Theory II: Gauge Theories

Explores Quantum Field Theory II, emphasizing Gauge Theories, including QED, fermion masses, vector bosons, and the Higgs mechanism.

Permutation Symmetry: Bosons and Fermions

Explores the symmetry of permutations in bosons and fermions based on spin values.

Quantum Statistics and Interference Experiments

Explores quantum statistics, wave-particle duality, anyons, and interference experiments in quantum mechanics.

Computational Quantum Physics

Covers the ground-state quantum Monte Carlo method and its statistical interpretation.

Higgs mechanism: Unveiling the Higgs boson

Explores the Higgs mechanism, the hunt for the Higgs boson, and its implications in particle physics.

Introduction to Symmetries

Covers perturbation theory, bosons, fermions, and quantum information in quantum systems.

Yukawa Theory: Boson Apt Function

Covers the Yukawa theory and the Boson Apt function in quantum field theory and particle physics.

Goldstone Bosons: Higgs Mechanism

Explores Goldstone bosons and the Higgs mechanism, revealing how spontaneous symmetry breaking generates mass for gauge bosons.

Magnetic Spin: Elementary Particles and Quantum Effects

Covers magnetic spin, elementary particles, quantum effects, and the Dirac equation.

Radiation Detection: Basics and Applications

Explores the history and principles of radiation detection, as well as its diverse applications.

Decays of Bosons

Explores the decays of W and Z bosons, their polarization states, weak interactions, and electroweak unification.

Quantum Optics: Harmonic Oscillator

Covers the enhanced sensitivity of the LIGO gravitational wave detector using squeezed states of light.

Systems of Multiple Particles and Hartree-Fock Method

Explores systems of multiple particles and the Hartree-Fock method in quantum mechanics.

Electroweak Unification and the W and Z Bosons

Explores the energy frontier for discoveries of known elementary particles, focusing on bosons and fermions, including the properties and decays of the W and Z bosons.