Lectures related to Dark Matter Candidates

Astroparticle Physics: Neutrinos and Dark Matter

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

Astroparticle Physics: Neutrinos and Dark Matter

Explores the dynamics of the Universe, neutrinos, relic neutrino background, dark matter candidates, and WIMPs.

Dark Matter Detection: WIMPs and Experimental Techniques

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

Neutrino Decoupling in Early Universe

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

Cosmological Constraints on Neutrino Masses

Explores Boltzmann H-theorem, entropy conservation, neutrino freezing, nucleosynthesis, and cosmological constraints.

Overview of Particle Physics and Rutherford Scattering

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

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.

Axion Kinetic Misalignment and Baryogenesis

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

Introduction to Astroparticle Physics: Cosmic Rays and Dark Matter

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

Particle Physics: Fundamentals and Interactions

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

Dark Matter: Evidence and Candidates

Discusses dark matter, its evidence, and various candidates, including neutrinos and axions.

Thermal history of the Universe

Explores the evolution of the Universe, from its early stages to the present, covering topics such as astroparticle physics and the thermal history.

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.

Dark matter: Heavy neutrinos

Delves into the seesaw mechanism and the implications of heavy neutrinos in the standard model.

Cosmological Puzzles: Dark Matter and Energy

Explores fundamental cosmological puzzles related to dark matter and energy.

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.

Dark Matter Detection

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

Magnetogenesis: Axion Inflation and Gravitational Waves

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

Baryon Asymmetry and Particle Physics

Explores nucleosynthesis, baryon asymmetry, CP violation, and the stability of the proton in particle physics.