用 $$\Lambda $$ 对脉冲引力波进行剪贴:数学分析

IF 1.3 3区 物理与天体物理 Q3 PHYSICS, MATHEMATICAL Letters in Mathematical Physics Pub Date : 2024-04-24 DOI:10.1007/s11005-024-01804-0
Clemens Sämann, Benedict Schinnerl, Roland Steinbauer, Robert Švarc
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引用次数: 0

摘要

脉冲引力波是短而剧烈的引力辐射爆发的理论模型。它们通常由两种不同的时空度量来描述,一种是局部李普希茨正则性的,另一种是均匀分布的。这两种度量被认为是 "物理等价 "的,因为它们可以通过 "不连续坐标变换 "正式联系起来。在本文中,我们对在恒定曲率背景时空中传播的整类非膨胀脉冲引力波的这一问题进行了数学分析。我们设计了一种自然的几何正则化程序,以证明臭名昭著的变量变化是作为平滑坐标变换族的分布极限而产生的。换句话说,我们证明了这两种时空都是在不同坐标系中产生的平滑夹心波的分布极限,而这些坐标系在衍射上是相关的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Cut-and-paste for impulsive gravitational waves with \(\Lambda \): the mathematical analysis

Impulsive gravitational waves are theoretical models of short but violent bursts of gravitational radiation. They are commonly described by two distinct spacetime metrics, one of local Lipschitz regularity and the other one even distributional. These two metrics are thought to be ‘physically equivalent’ since they can be formally related by a ‘discontinuous coordinate transformation’. In this paper we provide a mathematical analysis of this issue for the entire class of nonexpanding impulsive gravitational waves propagating in a background spacetime of constant curvature. We devise a natural geometric regularisation procedure to show that the notorious change of variables arises as the distributional limit of a family of smooth coordinate transformations. In other words, we establish that both spacetimes arise as distributional limits of a smooth sandwich wave taken in different coordinate systems which are diffeomorphically related.

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来源期刊
Letters in Mathematical Physics
Letters in Mathematical Physics 物理-物理:数学物理
CiteScore
2.40
自引率
8.30%
发文量
111
审稿时长
3 months
期刊介绍: The aim of Letters in Mathematical Physics is to attract the community''s attention on important and original developments in the area of mathematical physics and contemporary theoretical physics. The journal publishes letters and longer research articles, occasionally also articles containing topical reviews. We are committed to both fast publication and careful refereeing. In addition, the journal offers important contributions to modern mathematics in fields which have a potential physical application, and important developments in theoretical physics which have potential mathematical impact.
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