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Lecture
Astroparticle Physics: Neutron Stars and Cosmic Rays
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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.
Dark Matter Indirect Detection
Explores dark matter indirect detection methods, including WIMPs, gamma-ray observations, and supermassive black holes.
Supernova and Remnants
Delves into supernova explosions, heavy element production, and star remnants.
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.
Supernova Evolution: Phases and Emission Patterns
Explores the evolution of supernovae and their emission patterns in remnants.
Origin of the Nuclides
Explores the origin of radionuclides from supernova explosions and their role in nature, covering topics such as nuclear astrophysics, cosmic element formation, and stellar evolution.
Gravitational Waves: History and Detection
Explores the history, detection, and significance of gravitational waves, covering key experiments and projects in gravitational wave astronomy.
Degenerate Stars: White Dwarfs & Neutron Stars
Covers the characteristics and origins of white dwarfs and neutron stars, including their structure, evolution, and pulsations.
Astroparticle Physics: Neutrinos and Dark Matter
Explores the dynamics of the Universe, neutrinos, relic neutrino background, dark matter candidates, and WIMPs.
