Related lectures (12)
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.
Astroparticle Physics: High-Energy Particles and Dark Matter
Covers high-energy particles, gamma-ray and neutrino astronomy, and dark matter detection in the Universe.
Particle Accelerators: Evolution and Future Prospects
Explores the evolution of particle accelerators, major achievements, challenges, and future prospects.
QGP Signatures: High-Temperature Plasma in Particle Physics
Delves into the signatures of Quark-Gluon Plasma in high-energy collisions.
Arrhenius Equation: Kinetics and Equilibrium
Covers the Arrhenius equation and its application to chemical equilibrium, as well as the transition state theory and chemical kinetics principles.
Multimessenger Astrophysics I: Astroparticle Events
Explores multimessenger astrophysics, focusing on cosmic rays, neutrinos, and gamma rays, and discusses the detection of neutrinos from a BL Lac object.
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.
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.
Solar Neutrinos: Experiments and Spectra
Explores solar neutrino detection, energy spectra, cosmic neutrinos, atmospheric neutrinos, and high-energy astroparticles.

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