Modern Numerical Methods in Computational Relativity - Lecture 4
Offered By: International Centre for Theoretical Sciences via YouTube
Course Description
Overview
Explore advanced techniques in computational relativity through this lecture, part of a comprehensive summer school on gravitational-wave astronomy. Delve into modern numerical methods used to solve Einstein's field equations and model complex astrophysical phenomena. Learn about cutting-edge approaches for simulating black hole mergers, neutron star collisions, and other high-energy events that produce gravitational waves. Gain insights into the mathematical formulations and computational strategies employed in numerical relativity, essential for interpreting gravitational-wave observations and advancing our understanding of extreme spacetime geometries.
Syllabus
Modern Numerical Methods in Computational Relativity Lecture 4 by Geoffrey Lovelace
Taught by
International Centre for Theoretical Sciences
Related Courses
La visione del mondo della Relatività e della Meccanica QuantisticaSapienza University of Rome via Coursera Relativity and Astrophysics
Cornell University via edX Loop Quantum Gravity
Massachusetts Institute of Technology via World Science U Relatività e Meccanica Quantistica: concetti e idee
Sapienza University of Rome via Coursera Introducción a las ondas gravitacionales
Universidad Nacional de Córdoba via edX