Lectures related to Multimessenger Astrophysics I: Astroparticle Events

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.

Neutrino Decoupling in Early Universe

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

Astroparticle Physics: Neutron Stars and Cosmic Rays

Explores neutron stars, supernova explosions, and their role in cosmic ray production.

Introduction to Astroparticle Physics: Cosmic Rays and Dark Matter

Covers astroparticle physics, focusing on cosmic rays, dark matter, and the universe's expansion.

Astroparticle Physics: Neutrinos and Dark Matter

Covers the role of neutrinos in astroparticle physics and their implications for dark matter in the universe.

Dark Matter Detection: WIMPs and Experimental Techniques

Covers the detection of dark matter, focusing on WIMPs and experimental techniques used in laboratories.

Astroparticle Physics: High-Energy Particles and Dark Matter

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

Magnetogenesis: Axion Inflation and Gravitational Waves

Covers magnetogenesis in axion inflation and its implications for gravitational waves.

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.

Astroparticle Physics: Dark Matter and Neutron Stars

Covers dark matter detection challenges and the evolution of massive stars into neutron stars.

Stellar Evolution: Core Collapse

Explores the evolution of massive stars, core collapse, and neutrino detection.

Neutrinos and Neutrino Oscillations

Explores neutrino detection, oscillations, PMNS matrix, CP symmetries, mass hierarchies, and experimental methods.

Axion Kinetic Misalignment and Baryogenesis

Explores new cosmological dynamics of the axion, explaining dark matter and baryon asymmetry.

Solar Neutrinos: Experiments and Spectra

Explores solar neutrino detection, energy spectra, cosmic neutrinos, atmospheric neutrinos, and high-energy astroparticles.

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.

The Matter Content in the Universe

Explores the matter content in the universe, including galaxy mass, dark matter relics, and the history of the universe.

Dark Matter Detection

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

Particle Physics Exploration at LHC: Rare Phenomena and New Detectors

Explores rare phenomena in particle physics using LHC detectors and discusses implications for dark matter and neutrino detection.

The weak interactions of leptons

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