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Lecture
Understanding QCD Phase Transition
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Nuclear and Particle Physics: Selected Topics
Explores the creation of nuclei, compression, phase transitions, and properties of quark-gluon plasma.
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.
Quantum Chromodynamics: Main Concepts
Covers the main concepts of Quantum Chromodynamics, including color confinement, gluons, color singlets, and the discovery of the gluon.
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.
Trans-series in Quantum Field Theory: SVZ Approach Overview
Discusses the SVZ method for calculating non-perturbative corrections in quantum field theory.
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QGP Signatures: High-Temperature Plasma in Particle Physics
Delves into the signatures of Quark-Gluon Plasma in high-energy collisions.
Unitarity and Entropy: From Black Holes to Baryons
Explores the connection between unitarity and entropy, from black holes to baryons, revealing universal bounds and similarities.
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.
Quantum Chromodynamics: main concepts
Explores Quantum Chromodynamics experimental aspects, including hadronization, jets, gluon discovery, quark studies, color conservation, and running coupling constants.
