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Next Generation Numerical Relativity for Modeling Binary Black Holes - Lecture 1

Offered By: International Centre for Theoretical Sciences via YouTube

Tags

Numerical Relativity Courses Astrophysics Courses General Relativity Courses Gravitational Waves Courses Computational Physics Courses

Course Description

Overview

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Explore the foundations of next-generation Numerical Relativity techniques for modeling binary black hole systems in this comprehensive lecture. Delve into advanced computational methods and mathematical frameworks used to simulate the complex dynamics of merging black holes. Learn about the latest developments in numerical algorithms, grid techniques, and computational efficiency improvements that enable more accurate and detailed simulations of gravitational wave sources. Gain insights into how these cutting-edge numerical methods contribute to our understanding of binary black hole mergers and their gravitational wave signatures, essential for interpreting data from current and future gravitational wave detectors. Suitable for graduate students and researchers in gravitational physics, computational astrophysics, and related fields.

Syllabus

Next generation Numerical Relativity for Modeling Binary Black Holes Lecture 1 by Geoffrey Lovelace


Taught by

International Centre for Theoretical Sciences

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