Lectures related to Quantum Chromodynamics: main concepts

Quantum Chromodynamics: Main Concepts

Covers the main concepts of Quantum Chromodynamics, including color confinement, gluons, color singlets, and the discovery of the gluon.

Overview of Particle Physics and Rutherford Scattering

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

Gauge Theories And Modern Particle Physics

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

Understanding Vacuum Energy in Inflation

Explores vacuum energy during inflation and the dynamics of scalar and vector fields, emphasizing the importance of seeking clarification and providing details about upcoming exams.

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Nuclear and Particle Physics: Selected Topics

Explores the creation of nuclei, compression, phase transitions, and properties of quark-gluon plasma.

QGP Signatures: High-Temperature Plasma in Particle Physics

Delves into the signatures of Quark-Gluon Plasma in high-energy collisions.

The weak interactions of leptons

Delves into neutrino flavors, muon decay, LFU violation, and neutrino-quark scattering, exploring weak interactions of leptons.

Dark Matter Detection: Experiments and Results

Explores dark matter detection methods, including direct and indirect experiments, Quark Gluon Plasma creation, and the history of the Universe.

Symmetries and Quark Model

Explores symmetries in particle physics, focusing on the quark model and conservation laws, leading to isospin and flavor symmetry.

Symmetries and Quark Model

Explores symmetries, quark model, meson construction, SU(3) flavor symmetry, baryon formation, and multiplet structures.

Particle Physics: Fundamentals and Interactions

Covers the basics of particle physics, including elementary particles, forces, the Standard Model, and rare phenomena at the LHC.

Trans-series in Quantum Field Theory: SVZ Approach and Applications

Discusses the SVZ sum rules and their application in quantum field theory, focusing on trans-series and non-perturbative corrections.

Isospin Symmetry in Particle Physics

Discusses isospin symmetry in particle physics, focusing on quarks and baryons' symmetry properties, conservation laws, and Delta resonances.

Introduction to Particle Physics

Introduces spatial scales, particle interactions, mass-energy equivalence, and momentum conservation in particle physics.

Phenomenological Applications of the Standard Model

Explores the verification of the standard model through scattering experiments and the implications of minimal dark matter models.

Trans-series in Quantum Field Theory: SVZ Approach Overview

Discusses the SVZ method for calculating non-perturbative corrections in quantum field theory.

Probability and Statistics for Physics

Introduces probability and statistics concepts in physics, exploring the Standard Model and practical applications.

Selected Topics in Nuclear and Particle Physics

Covers selected topics in nuclear and particle physics, including QGP identification, isotropic sources, rapidity distribution, and QCD strings.

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.