Weyl张量的电磁部分和自旋系数

A. Hasmani, R. Panchal
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引用次数: 1

摘要

摘要:众所周知,广义相对论中Weyl张量的电和磁部分与电磁学中的相似。另一方面,纽曼-彭罗斯形式主义为相对论的解和解释提供了一个新的维度。它在理解具有不同物质含量的特定彼得罗夫类型解的时空中的意义是众所周知的。本文给出了Weyl张量的电磁部分的自旋系数形式,为Weyl张量的电磁部分的计算提供了一种新的、有效的方法。结果表明,与人工计算相比,使用计算机代数系统计算时间大大减少。以纯辐射测量为例,详细阐述了该技术。
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Electric and magnetic parts of the Weyl tensor and spin coefficients
Abstract It is known that electric and magnetic parts of the Weyl tensor in General Relativity are analogous to that occur in the theory of electromagnetism. On the other hand, Newman-Penrose formalism provides a new dimension to the solutions and interpretations for the theory of relativity. Its significance in understanding spacetimes with some particular Petrov types, solutions with different material contents is well known. This paper provides spin coefficient form of electric and magnetic parts of the Weyl tensor, which leads to a new and efficient way for the computation of electric and magnetic parts of the Weyl tensor. It is observed that the computational time is greatly reduced when done using computer algebra system in comparison to that is done manually. This technique is elaborated in the example of Pure Radiation metric.
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