21世纪的天体测量学。从喜帕恰斯到爱因斯坦

Mariateresa Crosta
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摘要

天体测量学是天文学的基础部分,它可以确定天体的几何、运动学和动力学特性,包括我们自己的星系,它是由引力聚集和塑造的。在喜巴恰斯(公元前190-120年)和他的前任提莫查里斯和阿里斯蒂略时代,关于恒星位置的知识已经很重要了。他们对恒星位置的编目(大约早了150年)使喜帕恰斯能够以接近半度的精度更新观测结果,从而发现了春分岁差现象。如今,一个大的跳跃是必须的:位置、运动和距离存在于爱因斯坦理论的领域,零测地线代表了我们通过弯曲的时空与恒星的独特物理联系,即变化的背景几何。天体测量学必须配备广义相对论的所有适当工具,以定义可观测到的天体,并进行精确到微秒以上的天文编目所需的测量。21世纪的天体测量学被赋予了一个完全相对论的框架,在天体物理学中有了新的潜在应用,可以引领基础物理学的前沿发现,并正在成为局部宇宙学的支柱。在这方面,在21世纪,将其称为“引力天体测量学”更为合适。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Astrometry in the 21st century. From Hipparchus to Einstein
Astrometry is that fundamental part of astronomy which allows to determine the geometric, kinematical, and dynamical properties of celestial objects, including our own Galaxy, which is assembled and shaped by gravity. The knowledge of star positions was already important at the times of Hipparchus (190–120 BC) and his predecessors, Timocharis and Aristillos. Their cataloging (approximately 150 years earlier) of star positions enabled Hipparchus to update the observations with a precision of nearly half a degree and thus to discover the phenomenon of equinox precession. Nowadays a big jump is mandatory: positions, motions, and distances exist in the realm of the Einstein Theory and null geodesics represent our unique physical links to the stars through a curved space-time, namely a varying background geometry. Astrometry must be equipped with all of the proper tools of General Relativity to define the observables and the measurements needed for compiling astronomical catalogs at the microarcosecond accuracy and beyond. The astrometry of the 21st century, endowed with a fully relativistic framework, is fully fledged for new potential applications in astrophysics, can lead the way to forefront discoveries in fundamental physics, and is becoming the pillar of Local Cosmology. In this respect, it is more appropriate, in the 21st century, to refer to it as “Gravitational Astrometry”.
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