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Bootstrapping the Relativistic 2-Body Problem - From Post-Newton to Post-Minkowski Through Feynman - Rafael Porto

Offered By: Kavli Institute for Theoretical Physics via YouTube

Tags

Gravitational-Wave Modeling Courses Effective Field Theory Courses Scattering Amplitudes Courses Classical Relativity Courses

Course Description

Overview

Explore cutting-edge research in gravitational wave physics through this 46-minute conference talk by Rafael Porto from DESY. Delve into the relativistic 2-body problem, examining the progression from Newtonian to post-Minkowskian physics through the lens of Feynman diagrams. Gain insights into the intersection of classical relativity, effective field theory, and scattering amplitudes as applied to gravitational wave modeling. Discover how these theoretical advancements contribute to the interpretation of gravitational wave events and the search for new physics. Learn about the challenges and opportunities presented by next-generation gravitational wave experiments, and the promising tools and techniques emerging from classical and quantum field theory to address them.

Syllabus

Bootstrapping the relativistic 2-body problem... ▸ Rafael Porto (DESY)


Taught by

Kavli Institute for Theoretical Physics

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