Item Successfully Added to Cart
An error was encountered while trying to add the item to the cart. Please try again.
OK
Please make all selections above before adding to cart
OK
Share this page via the icons above, or by copying the link below:
Copy To Clipboard
Successfully Copied!
The Formation of Black Holes in General Relativity
 
Demetrios Christodoulou Eidgen Technische Hochschule, Zürich, Switzerland
A publication of European Mathematical Society
The Formation of Black Holes in General Relativity
Hardcover ISBN:  978-3-03719-068-5
Product Code:  EMSMONO/4
List Price: $128.00
AMS Member Price: $102.40
Please note AMS points can not be used for this product
The Formation of Black Holes in General Relativity
Click above image for expanded view
The Formation of Black Holes in General Relativity
Demetrios Christodoulou Eidgen Technische Hochschule, Zürich, Switzerland
A publication of European Mathematical Society
Hardcover ISBN:  978-3-03719-068-5
Product Code:  EMSMONO/4
List Price: $128.00
AMS Member Price: $102.40
Please note AMS points can not be used for this product
  • Book Details
     
     
    EMS Monographs in Mathematics
    Volume: 42009; 600 pp
    MSC: Primary 83; 35; 58

    In 1965 Penrose introduced the fundamental concept of a trapped surface, on the basis of which he proved a theorem which asserts that a spacetime containing such a surface must come to an end. The presence of a trapped surface implies, moreover, that there is a region of spacetime, the black hole, which is inaccessible to observation from infinity.

    Since that time a major challenge has been to find out how trapped surfaces actually form, by analyzing the dynamics of gravitational collapse. The present monograph achieves this aim by establishing the formation of trapped surfaces in pure general relativity through the focusing of gravitational waves.

    The theorems proved in this monograph constitute the first foray into the long-time dynamics of general relativity in the large, that is, when the initial data are no longer confined to a suitable neighborhood of trivial data. The main new method, the short pulse method, applies to general systems of Euler–Lagrange equations of hyperbolic type and provides the means to tackle problems which have hitherto seemed unapproachable.

    This monograph will be of interest to people working in general relativity, geometric analysis, and partial differential equations.

    A publication of the European Mathematical Society (EMS). Distributed within the Americas by the American Mathematical Society.

    Readership

    Graduate students and research mathematicians interested in mathematical physics.

  • Requests
     
     
    Review Copy – for publishers of book reviews
    Accessibility – to request an alternate format of an AMS title
Volume: 42009; 600 pp
MSC: Primary 83; 35; 58

In 1965 Penrose introduced the fundamental concept of a trapped surface, on the basis of which he proved a theorem which asserts that a spacetime containing such a surface must come to an end. The presence of a trapped surface implies, moreover, that there is a region of spacetime, the black hole, which is inaccessible to observation from infinity.

Since that time a major challenge has been to find out how trapped surfaces actually form, by analyzing the dynamics of gravitational collapse. The present monograph achieves this aim by establishing the formation of trapped surfaces in pure general relativity through the focusing of gravitational waves.

The theorems proved in this monograph constitute the first foray into the long-time dynamics of general relativity in the large, that is, when the initial data are no longer confined to a suitable neighborhood of trivial data. The main new method, the short pulse method, applies to general systems of Euler–Lagrange equations of hyperbolic type and provides the means to tackle problems which have hitherto seemed unapproachable.

This monograph will be of interest to people working in general relativity, geometric analysis, and partial differential equations.

A publication of the European Mathematical Society (EMS). Distributed within the Americas by the American Mathematical Society.

Readership

Graduate students and research mathematicians interested in mathematical physics.

Review Copy – for publishers of book reviews
Accessibility – to request an alternate format of an AMS title
Please select which format for which you are requesting permissions.