Gravity experiments with radio pulsars

IF 26.3 2区 物理与天体物理 Q1 PHYSICS, PARTICLES & FIELDS
Paulo C. C. Freire, Norbert Wex
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Abstract

The discovery of the first pulsar in a binary star system, the Hulse–Taylor pulsar, 50 years ago opened up an entirely new field of experimental gravity. For the first time it was possible to investigate strong-field and radiative aspects of the gravitational interaction. Continued observations of the Hulse–Taylor pulsar eventually led, among other confirmations of the predictions of general relativity (GR), to the first evidence for the reality of gravitational waves. In the meantime, many more radio pulsars have been discovered that are suitable for testing GR and its alternatives. One particularly remarkable binary system is the Double Pulsar, which has far surpassed the Hulse–Taylor pulsar in several respects. In addition, binary pulsar-white dwarf systems have been shown to be particularly suitable for testing alternative gravitational theories, as they often predict strong dipolar gravitational radiation for such asymmetric systems. A rather unique pulsar laboratory is the pulsar in a hierarchical stellar triple, that led to by far the most precise confirmation of the strong-field version of the universality of free fall. Using radio pulsars, it could be shown that additional aspects of the Strong Equivalence Principle apply to the dynamics of strongly self-gravitating bodies, like the local position and local Lorentz invariance of the gravitational interaction. So far, GR has passed all pulsar tests with flying colours, while at the same time many alternative gravity theories have either been strongly constrained or even falsified. New telescopes, instrumentation, timing and search algorithms promise a significant improvement of the existing tests and the discovery of (qualitatively) new, more relativistic binary systems.

Abstract Image

射电脉冲星引力实验
50 年前在双星系统中发现的第一颗脉冲星,即霍尔斯-泰勒脉冲星,开辟了一个全新的引力实验领域。人们第一次有可能对引力相互作用的强场和辐射方面进行研究。对霍尔斯-泰勒脉冲星的持续观测,最终除了证实广义相对论(GR)的预言之外,还首次证明了引力波的存在。与此同时,人们还发现了更多适合检验广义相对论及其替代理论的射电脉冲星。双脉冲星就是一个特别出色的双星系统,它在多个方面都远远超过了霍尔斯-泰勒脉冲星。此外,双脉冲星-白矮星系统已被证明特别适合用于测试替代引力理论,因为它们经常预言这种不对称系统会产生强烈的偶极引力辐射。一个相当独特的脉冲星实验室是分层恒星三重体内的脉冲星,它导致了迄今为止对自由落体普遍性强场版本的最精确确认。利用射电脉冲星,可以证明强等效原理的其他方面也适用于强自引力天体的动力学,比如引力相互作用的局部位置和局部洛伦兹不变性。迄今为止,地球引力理论已经顺利通过了所有脉冲星测试,而与此同时,许多其他引力理论要么受到强烈制约,要么甚至被证伪。新的望远镜、仪器、定时和搜索算法有望大大改进现有的测试,并发现(在质量上)新的、更具相对论性的双星系统。
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来源期刊
Living Reviews in Relativity
Living Reviews in Relativity 物理-物理:粒子与场物理
CiteScore
69.90
自引率
0.70%
发文量
0
审稿时长
20 weeks
期刊介绍: Living Reviews in Relativity is a peer-reviewed, platinum open-access journal that publishes reviews of research across all areas of relativity. Directed towards the scientific community at or above the graduate-student level, articles are solicited from leading authorities and provide critical assessments of current research. They offer annotated insights into key literature and describe available resources, maintaining an up-to-date suite of high-quality reviews, thus embodying the "living" aspect of the journal's title. Serving as a valuable tool for the scientific community, Living Reviews in Relativity is often the first stop for researchers seeking information on current work in relativity. Written by experts, the reviews cite, explain, and assess the most relevant resources in a given field, evaluating existing work and suggesting areas for further research. Attracting readers from the entire relativity community, the journal is useful for graduate students conducting literature surveys, researchers seeking the latest results in unfamiliar fields, and lecturers in need of information and visual materials for presentations at all levels.
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