Lectures related to Linearized Gravity: Perturbation Theory

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.

Black Holes: Redshift and Gravitational Waves

Delves into black holes, redshift, and gravitational waves, exploring their properties and behaviors in different spacetime dimensions.

Einstein Equations

Covers the derivation of Einstein equations and the Schwarzschild metric.

Geodesics in Schwarzschild Spacetime

Explores geodesics in Schwarzschild spacetime, circular orbits, and the perihelion advance in General Relativity.

Scattering Structures: From Amplitudes to Black Holes

Explores gauge symmetry, amplitudes, black holes, and fluids, highlighting the interplay between redundancy, diffeomorphisms, and the double copy phenomenon.

Special and General Relativity

Introduces special and general relativity, Einstein equations, and gravitational dynamics.

Gravitational Waves: History and Detection

Explores the history, detection, and significance of gravitational waves, covering key experiments and projects in gravitational wave astronomy.

Gravitational Waves: Detection and Quadrupole Formula

Explores the production and detection of gravitational waves, the quadrupole formula, and the first observation of gravitational waves on 14/09/2015.

General Relativity: Energy-Momentum Tensor

Covers the Schwarzschild solution, the cosmological constant, and General Relativity as an Effective Field Theory.

Gravitational Waves: Detection and Implications

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

Gravitational Waves: Effects and Trajectories

Explores the effects of gravitational waves on geodesics and photon trajectories.

Kruskal Coordinates: Schwarzschild Black Holes

Explores Kruskal coordinates and Schwarzschild black holes in General Relativity, including Einstein equations and cosmological constants.

Gravitational Wave Astronomy

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

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.

Cosmic Magnetic Fields: Generation and Backreaction

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

Gravitational Waves: Energy and Flux

Explores the energy carried by gravitational waves and the total power radiated in a binary system.

Primordial Black Holes and Gravitational Wave Observations

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

Gravitational Field Equations

Covers the formulation of gravitational field equations and the motion of particles in gravitational fields.

Probing Anisotropies of SGWB with LISA

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