Concept
High-energy nuclear physics
Related lectures (10)
Experimental Methods at High-Energy Colliders
Explores experimental methods at high-energy colliders, focusing on the CMS detector at CERN's LHC and the reconstruction of stable particles and jets.
QGP Signatures: High-Temperature Plasma in Particle Physics
Delves into the signatures of Quark-Gluon Plasma in high-energy collisions.
Particle Scattering: Relativistic Rutherford Cross Section
Explores the relativistic Rutherford cross section, Form Factor, quantum field theory, particle accelerators, and LHC production cross sections.
Particle Accelerators: Evolution and Future Prospects
Explores the evolution of particle accelerators, major achievements, challenges, and future prospects.
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.
Luminosity and beam-beam effects
Explores circular accelerators, colliders, luminosity calculation, beam-beam forces, different collisions, and the LHC luminosity reach, emphasizing the effects of beam-beam interactions.
Elastic and Inelastic Collisions
Explains elastic and inelastic collisions, focusing on momentum and kinetic energy conservation with practical examples.
Dark Matter Detection
Explores direct dark matter detection principles, modulation effects, and various experiments, highlighting challenges and detection method interplay.
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.