引力波的Hodge-de Rham拉普拉斯准则和几何准则

Discrete and Continuous Models and Applied Computational Science Pub Date : 2023-09-12 DOI:10.22363/2658-4670-2023-31-3-242-246

Olga V. Babourova, Boris N. Frolov

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引用次数: 0

摘要

流形的曲率张量\(\hat{R}\)被称为调和张量，如果它满足条件\(\Delta^{\text{(HR)}}\hat{R}=0\)，其中\(\Delta^{\text{(HR)}}=DD^{\ast} + D^{\ast}D\)是霍奇-德拉姆拉普拉斯量。证明了爱因斯坦方程在真空中的所有解，以及爱因斯坦-卡坦理论在真空中的所有解都具有调和曲率。只有爱因斯坦方程\(N\)(描述引力辐射)的解是调和的说法被驳斥。

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Hodge-de Rham Laplacian and geometric criteria for gravitational waves

The curvature tensor \(\hat{R}\) of a manifold is called harmonic, if it obeys the condition \(\Delta^{\text{(HR)}}\hat{R}=0\), where \(\Delta^{\text{(HR)}}=DD^{\ast} + D^{\ast}D\) is the Hodge–deRham Laplacian. It is proved that all solutions of the Einstein equations in vacuum, as well as all solutions of the Einstein–Cartan theory in vacuum have a harmonic curvature. The statement that only solutions of Einstein’s equations of type \(N\) (describing gravitational radiation) are harmonic is refuted.

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