Lectures related to Gravitational Waves: History and Detection

Gravitational Waves: Detection and Implications

Explores the history, detection, and implications of gravitational waves, covering technical aspects and historical milestones.

Gravitational Waves: Observations and Implications

Explores the detection of gravitational waves, focusing on the first observation of a binary black hole merger and its implications for astrophysics.

Gravitational Wave Astronomy

Explores the impact of gravitational waves on central questions in astronomy, from LIGO's first detection to future prospects.

Historical Perspective of Cosmology

Explores the historical evolution of cosmology, covering key concepts and scientific revolutions in the field.

Inhomogeneities in the Universe

Delves into gravitational instability, structures formation, and CMB temperature, exploring the inhomogeneities in the Universe.

Primordial Black Holes and Gravitational Wave Observations

Explores Primordial Black Holes, their formation, gravitational wave signatures, constraints on abundance, and future detection prospects.

Astroparticle Physics: Neutron Stars and Cosmic Rays

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

Neutrino and gravitational wave telescopes

Explains the operation of neutrino and gravitational wave telescopes, global astronomy events, and the solar neutrino problem.

Gravitational Waves and the Hubble Constant

Explores the measurement of the Hubble Constant using gravitational waves and the standard siren method.

Probing Anisotropies of SGWB with LISA

Explores the sensitivity of LISA to anisotropies in the Stochastic Gravitational Wave Background.

Cosmic Magnetic Fields: Generation and Backreaction

Covers the generation of primordial magnetic fields and their backreaction effects in cosmology.

Gravitational Lensing: Basics and Applications

Explores the basics of gravitational lensing, clarifying common misconceptions and providing explicit observational tests.

Cosmological Magnetic Fields: Probes & Evolution

Explores multi-messenger probes and evolution of cosmological magnetic fields through turbulence and phase transitions.

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.

Pulsars: Discovery and Properties

Covers the discovery of pulsars, their properties, and their use as gravitational wave detectors.

Gravitational-Wave Transient Catalog: Insights and Challenges

Explores the Gravitational-Wave Transient Catalog 2 and the challenges in distinguishing compact bodies, emphasizing the need for accurate waveform models and the discovery potential in gravitational physics.

Non-Linear Dynamics: Early Universe Phenomena

Covers non-linear dynamics in the early universe, focusing on particle production and gravitational wave generation.

Astroparticle Physics: Dark Matter and Neutron Stars

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

Dark Matter Detection: WIMPs and Experimental Techniques

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

Cosmological Puzzles: Dark Matter and Energy

Explores fundamental cosmological puzzles related to dark matter and energy.