膜模型作为广义相对论中的一种推进手段:满足弱能量条件的超光速翘曲驱动

arXiv (Cornell University) Pub Date : 2023-11-13 DOI:10.48550/arxiv.2311.07193

Huey, Greg

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引用次数: 0

摘要

介绍了3+1维亚腔和超腔翘曲驱动器的玩具模型。这些模型是以嵌合的方式构建的——不同的体积空间-时间被薄膜分开。膜包含完美的流体样应力-能量张量。以色列结条件将这种应力能量与跨膜的外在曲率的跳跃联系起来，这反过来又表现为体时空中的表观加速度。膜两侧的加速度可以通过选择模型参数单独设置。在两个模型中处处都满足弱能条件(WEC)。虽然这些玩具模型中的膜并不紧凑，但证明了满足WEC的超腔曲速驱动是可能的。此外，这些模型的性质为推测从亚光速曲向超光速曲过渡的机制提供了框架。没有考虑量子效应和模型的稳定性。

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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Membrane Models as a Means of Propulsion in General Relativity: Super-Luminal Warp-Drive that Satisfies the Weak Energy Condition

Presented are toy-models for sub-luminal and super-luminal warp-drives in 3+1 dimensions. The models are constructed in a chimeric manner - as different bulk space-times separated by thin membranes. The membranes contain perfect-fluid-like stress-energy tensors. The Israel junction conditions relate this stress-energy to a jump in extrinsic curvature across the brane, which in turn manifests as apparent acceleration in the bulk space-times. The acceleration on either side of the brane may be set individually by choice of model parameters. The Weak Energy Condition (WEC) is shown to be satisfied everywhere in both models. Although the branes in these toy models are not compact, it is demonstrated that super-luminal warp-drive is possible that satisfies the WEC. Additionally, the nature of these models provides framework for speculation on a mechanism for transition from sub-luminal to super-luminal warp. Neither quantum effects nor stability of the models is considered.

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arXiv (Cornell University)

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