On the influence of the dark substance on electromagnetic radiation in space

Vescì Nacyânalʹnaj akadèmìì navuk Belarusì Pub Date : 2023-10-03 DOI:10.29235/1561-2430-2023-59-3-224-232

A. P. Ryabushko, T. A. Zhur

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Abstract

This paper investigates the influence of the gravitational fields of dark matter and dark energy, the existence of which is currently firmly established, on electromagnetic radiation in space. In the post-Newtonian approximation of the general theory of relativity, a regularity is derived that generalizes the well-known Shapiro time delay (Shapiro effect) to estimate the delay of a light beam during the Mercury location. The generalization consists of the fact that in addition to the gravitational field of the central mass, the influence of the gravitational fields of the visible (observed) medium and dark substance on the processes in space is taken into account. The cases of location of the planet Mercury and the star near the center of our Galaxy in gravitational fields created by a spherically symmetrically distributed medium are considered. Estimates of the delays of location signals are calculated, which can exceed the time delays of signals in a space not filled with a medium by several orders of magnitude. A method for estimating the density of a dark substance is indicated if the experimental estimate of the location signal delay is known. This method is illustrated by the location of Mercury as an example.

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暗物质对空间电磁辐射的影响

本文研究了暗物质和暗能量的引力场对空间电磁辐射的影响，目前暗物质和暗能量的存在是确定的。在广义相对论的后牛顿近似中，推导出了一个规律，它推广了著名的夏皮罗时间延迟(夏皮罗效应)，以估计在水星位置期间光束的延迟。这种推广包括这样一个事实，即除了中心质量的引力场外，还考虑了可见(观测到的)介质和暗物质的引力场对空间过程的影响。考虑了在球形对称分布介质产生的引力场中，水星和恒星位于银河系中心附近的情况。计算了定位信号的延迟估计，它可以比没有介质填充的空间中信号的时间延迟超过几个数量级。在已知定位信号延迟的实验估计的情况下，提出了一种估计暗物质密度的方法。以水星的位置为例说明了这种方法。

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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Vescì Nacyânalʹnaj akadèmìì navuk Belarusì

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