Lectures related to Particle Detection: Stable Particles and Lifetime

Overview of Particle Physics and Rutherford Scattering

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

The weak interactions of leptons

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

Quantum Physics: Wave-Particle Duality

Explores wave-particle duality in quantum physics, covering interference, matter waves, and energy quantization.

Particle Physics: Fundamentals and Interactions

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

Conservation of Momentum and Kinetic Energy

Explores conservation of momentum and kinetic energy in collisions, emphasizing the importance of understanding collision outcomes.

Plasma Collisions: Coulomb Force

Analyzes Coulomb collisions between charged particles and the conservation of energy, momentum, and angular momentum.

Rutherford Scattering: Cross Section Analysis

Explores the analysis of Rutherford scattering cross sections and the measurement of particle properties using detectors and technologies.

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Neutrino Decoupling in Early Universe

Explores neutrino decoupling in the early universe and its implications on cosmic evolution.

Momentum and Impulse: Conservation and Center of Mass

Explores momentum, impulse, and conservation principles in dynamic systems.

Particle Detection and Detectors

Explores particle detection using scintillators, cloud chambers, and wire chambers for various applications.

Quantum Chemistry: Wave-Particle Duality

Explores the wave-particle duality in quantum chemistry, covering interference phenomena and energy quantization.

Quantité de mouvement and Impulsion

Explores momentum, impulse, work, energy, and angular momentum in advanced physics.

Astrophysical Fluids & Plasmas

Explores the composition of the cosmos, dynamics of fluids and plasmas, and conservation equations.

Dark Matter Detection

Explores direct dark matter detection principles, modulation effects, and various experiments, highlighting challenges and detection method interplay.

Elementary Particles: Decays and Properties

Explores elementary particle decays, stability, lifetimes, and properties measurement through kinematic reconstruction and experimental examples.

Astroparticle Physics: High-Energy Particles and Dark Matter

Covers high-energy particles, gamma-ray and neutrino astronomy, and dark matter detection in the Universe.

Kinetic Theory: Distribution Function Evolution

Explores the evolution of the distribution function describing particles in phase space.

Conservation Laws in Plasma Physics

Covers the conservation laws in plasma physics, highlighting entropy, energy, and momentum conservation.

Quantities of Movement and Energy

Explores quantities of movement, impulse, work, energy, and momentum, including Newton's laws and technical equation solutions.