The Dynamical Systems Approach to Spatially Homogenous Einstein-Vlasov Cosmology
Hausdorff Center for Mathematics via YouTube
Get 20% off all career paths from fullstack to AI
Stuck in Tutorial Hell? Learn Backend Dev the Right Way
Overview
Google, IBM & Meta Certificates – 40% Off
One plan covers every Professional Certificate on Coursera.
Unlock All Certificates
Explore the dynamical systems approach to spatially homogeneous Einstein-Vlasov cosmology in this 30-minute lecture from the Hausdorff Junior Trimester Program on Kinetic Theory. Delve into theoretical and mathematical cosmology, examining deviations from conventional models that assume spatial homogeneity and isotropy with perfect fluid matter content. Investigate spatially homogeneous Einstein-Vlasov cosmology, where matter is modeled as a collision-free kinetic gas, and learn about the approach initiated by Rendall (1996) that reduces the system to an autonomous dynamical system. Discover the exact past and future asymptotic solutions, including behavior near big-bang or big-crunch singularities and towards an expanding future. Gain insights into Kantowski-Sachs cosmology with Vlasov matter, as presented by Gernot Heißel, and explore topics such as symmetry inheritance, spatial virginity, mansion equations, and physical constraints.
Syllabus
Introduction
Basics
Cosmology
Recap
Fast method
Inheritance of symmetry
Additional symmetry
Spatial virginity
The metric
Warning results
Mansion equations
Physical constraints
Proof
Summary
Taught by
Hausdorff Center for Mathematics