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Lectures on Mathematical Relativity

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Lectures on Mathematical Relativity

Lectures on Mathematical Relativity

Justin Corvino, Lafayette College, Pennsylvania
Pengzi Miao, University of Miami
March 2025
Paperback
9781107439252
Price unavailable
Paperback
Hardback
    Description

    This book introduces and explores some of the deep connections between Einstein's theory of gravitation and differential geometry. As an outgrowth of graduate summer schools, the presentation is aimed at graduate students in mathematics and mathematical physics, starting from the foundations of special and general relativity, and moving to more advanced results in geometric analysis and the Einstein constraint equations. Topics include the formulation of the Einstein field equation and the Einstein constraint equations; gluing construction of initial data sets which are Schwarzschild near infinity; and an introduction to the Riemannian Penrose inequality. While the book assumes a background in differential geometry and real analysis, a number of basic results in geometry are provided. There are well over 100 exercises, many woven into the fabric of the chapters as well as others collected at the end of chapters, to give readers a chance to engage and extend the text.

    • Allows readers with different backgrounds in mathematics or physics to approach the material by covering background in special relativity, geometry, and partial differential equations
    • Gives readers the opportunity to engage with and extend the material with more than 100 exercises with many detailed hints
    • Builds to more advanced topics for interested readers

    Product details

    March 2025
    Paperback
    9781107439252
    423 pages
    234 × 156 mm
    0kg
    Not yet published - available from March 2025

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    Contents

    Table of Contents

    • Preface
    • Notation and conventions
    • 1. Special relativity and Minkowski spacetime
    • 2. The Einstein equation
    • 3. Basics of Lorentzian causality
    • 4. The Penrose singularity theorem
    • 5. The Einstein constraint equations
    • 6. Scalar curvature deformation and the Einstein constraint equations
    • Excursus: first and second variation of area
    • 7. Asymptotically flat solutions of the Einstein constraint equations
    • 8. On the center of mass and constant mean curvature surfaces of asymptotically flat initial data sets
    • 9. On the Riemannian Penrose inequality
    • References
    • Index.
      • Show more
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