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Related lectures (30)
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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.
Solar Neutrinos: Experiments and Spectra
Explores solar neutrino detection, energy spectra, cosmic neutrinos, atmospheric neutrinos, and high-energy astroparticles.
Neutrino Decoupling in Early Universe
Explores neutrino decoupling in the early universe and its implications on cosmic evolution.
Neutrino and gravitational wave telescopes
Explains the operation of neutrino and gravitational wave telescopes, global astronomy events, and the solar neutrino problem.
Astroparticle Physics: Neutrinos and Dark Matter
Explores the dynamics of the Universe, neutrinos, relic neutrino background, dark matter candidates, and WIMPs.
Passage of Particles Through Matter
Explores the passage of particles through matter, focusing on energy loss mechanisms and selected topics in nuclear and particle physics.
Dark Matter Detection
Explores direct dark matter detection principles, modulation effects, and various experiments, highlighting challenges and detection method interplay.
Neutrinos and Neutrino Oscillations
Explores neutrino detection, oscillations, PMNS matrix, CP symmetries, mass hierarchies, and experimental methods.
Stellar Evolution: Core Collapse
Explores the evolution of massive stars, core collapse, and neutrino detection.
Cosmological Constraints on Neutrino Masses
Explores Boltzmann H-theorem, entropy conservation, neutrino freezing, nucleosynthesis, and cosmological constraints.
Dark matter: Heavy neutrinos
Delves into the seesaw mechanism and the implications of heavy neutrinos in the standard model.
Astroparticle Physics: High-Energy Particles and Dark Matter
Covers high-energy particles, gamma-ray and neutrino astronomy, and dark matter detection in the Universe.
Recombination and Decoupling: Origins of Cosmic Microwave Background
Covers the processes of recombination and decoupling of photons, explaining their significance in the origin of the cosmic microwave background.
Neutrino Telescope: Detecting High Energy Neutrinos in the Mediterranean Sea
Explores the operation of a Neutrino Telescope in the Mediterranean Sea and its contributions to understanding neutrino properties.
Selected Topics in Nuclear and Particle Physics
Explores neutrino physics, dark matter, and Quark-Gluon Plasma, covering historical discoveries and the measurement of neutrino masses.
The weak interactions of leptons
Delves into neutrino flavors, muon decay, LFU violation, and neutrino-quark scattering, exploring weak interactions of leptons.
Introduction to Astroparticle Physics: Cosmic Rays and Dark Matter
Covers astroparticle physics, focusing on cosmic rays, dark matter, and the universe's expansion.
Neutrino Physics: Oscillations and Mixing
Explores neutrino oscillations, mixing, and experimental evidence in different media.
Astroparticle Physics: Neutrinos and Dark Matter
Covers the role of neutrinos in astroparticle physics and their implications for dark matter in the universe.
Magnetogenesis: Axion Inflation and Gravitational Waves
Covers magnetogenesis in axion inflation and its implications for gravitational waves.
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