Wide Binaries, Retardation and the External Field Effect

Asher Yahalom
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Abstract

A low acceleration gravitational anomaly was reported for wide binaries: two binary stars which are separated by more than five kilo astronomical units (kau). The increase in gravitational force was reported to be about $1.37$ greater than Newtonian gravity. At the same time binaries separated less than one kau were shown to obey standard Newtonian gravity. A possible explanation for this was given in the framework of MOND correction to gravity which is applicable for low acceleration. However, it was noticed that the explanation is only adequate in the framework of Milgromian AQUAL theory which considers the "external field effect" that is the effect of the gravitational field of the rest of the galaxy on the binary system. Recently it was shown that many "anomalous gravity" effects can be explained in the framework of general relativity and its weak field approximation. It was shown that anomalous galaxy rotation curves, anomalous gravitational lensing and the Tully-Fisher relations can be understood in terms of retarded gravity. Moreover, the anomalous mass of galaxy clusters derived from the virial theorem was also shown to be a retarded gravity effect. On the other hand, it was shown that retarded effects are not important in the solar system and the correction to the anomalous shift of Mercury's perihelion is connected with the motion of the solar center of mass with respect to the sun and not to retardation. It is desirable to investigate if the wide binary acceleration gravitational anomaly can be explained in the framework of Einstein-Newton general relativity. We show that the scale of five kau separation arises naturally within such a theory if the effect of the galaxy on the wide binary is considered (a Newtonian external field effect) suggesting the anomaly found can be explained without the need to invoke theoretical modifications of the accepted theory.
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宽双星、迟滞和外场效应
据报道,宽双星(相距超过五千天文单位的两颗双星)存在低加速度引力异常现象。据报道,引力的增加值比牛顿引力高出约 1.37 美元。与此同时,相距不到 1 千天文单位的双星被证明服从标准牛顿引力。在 MOND 引力修正框架内对此给出了可能的解释,该框架适用于低加速度。然而,人们注意到,只有在米尔格罗姆AQUAL理论的框架内,这种解释才是充分的,因为该理论考虑了 "外部场效应",即星系其他部分的引力场对双星系统的影响。最近的研究表明,许多 "反常引力 "效应都可以在广义相对论及其弱场近似的框架内得到解释。研究表明,异常星系旋转曲线、异常引力透镜和塔利-费舍关系都可以用迟滞引力来解释。此外,从维拉定理得出的星系团异常质量也被证明是一种迟滞引力效应。另一方面,研究表明,迟滞效应在太阳系中并不重要,水星近日点异常偏移的修正与太阳质心相对于太阳的运动有关,而与迟滞无关。我们希望研究是否可以在爱因斯坦-牛顿广义相对论框架内解释宽双星加速引力异常。我们的研究表明,如果考虑到银河系对宽双星的影响(牛顿外场效应),那么在这种理论中自然会出现五考分离的尺度,这表明所发现的异常是可以解释的,而不需要对公认的理论进行理论修改。
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