从布里尔和特乌科尔斯基初始数据集得出的阿诺维特-戴塞尔-米斯纳质量的相似性超越了线性近似值

arXiv - PHYS - General Relativity and Quantum Cosmology Pub Date : 2024-09-06 DOI:arxiv-2409.04281

R. F. Aranha, H. P. de Oliveira

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引用次数: 0

摘要

真空轴对称时空最常见的两种初始数据是布里尔引力波和特乌科尔斯基引力波。这些数据的后续数值演化表现出不同的特性，主要与临界引力坍缩有关。理解这些差异的一个可能方法是首先从线性层面来看，布里尔波具有多极结构，而特乌科尔斯基波具有四极结构。尽管在线性和非线性层面上存在结构上的差异，我们还是证明了这些引力波的初始数据具有意想不到的相似性，它们都与作为初始波振幅函数的 ADM 质量分布有关。

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Similarity in the Arnowitt-Deser-Misner Mass from Brill and Teukolsky Initial Data Sets Beyond the Linear Approximation

The two most common initial data for vacuum axisymmetric spacetimes are the Brill and Teukolsky gravitational waves. The subsequent numerical evolution of these data exhibits distinct properties mainly associated with the critical gravitational collapse. A possible way of understanding these differences is first to look at the linear level, where the Brill waves have a multipolar structure, while the Teukolsky waves have a quadrupolar structure. Despite being structurally distinct at the linear and nonlinear levels, we show that these gravitational wave initial data share an unexpected similarity related to the distribution of ADM mass as a function of the initial wave's amplitude. More specifically, both configurations satisfy a nonextensive relation, commonly seen in systems governed by long range interactions.

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arXiv - PHYS - General Relativity and Quantum Cosmology

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