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Lecture
Radiation Detection: Basics and Applications
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Overview of Particle Physics and Rutherford Scattering
Covers the constituents of matter, fundamental forces, the Standard Model, natural units, and particle interaction experiments.
Higgs boson; Dark matter
Explores the properties of the Higgs boson and the concept of dark matter, including detection strategies and challenges.
Particle Physics: Fundamentals and Interactions
Covers the basics of particle physics, including elementary particles, forces, the Standard Model, and rare phenomena at the LHC.
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.
Fermion Masses: Higgs Mechanism and Yukawa Couplings
Covers the Higgs mechanism, fermion masses, Yukawa couplings, and properties of the Higgs boson, concluding with a discussion on dark matter beyond the Standard Model.
Magnetogenesis: Axion Inflation and Gravitational Waves
Covers magnetogenesis in axion inflation and its implications for gravitational waves.
Radiation Detection: Introduction
Explores the history, applications, measurement science, radiation-matter interaction, and fundamental forces in radiation detection.
The Higgs Mechanism: Unveiling Mass Generation
Explores the Higgs mechanism, solving the issue of massless gauge bosons and predicting masses of gauge bosons.
Indistinguishable Particles in Quantum Mechanics
Explores indistinguishable particles in quantum mechanics, discussing symmetry, density matrix, quantum statistics, exclusion principle, and particle behavior.
Dark Matter Detection
Explores direct dark matter detection principles, modulation effects, and various experiments, highlighting challenges and detection method interplay.
