遗迹引力子和非稳态过程

IF 5.3 2区 物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS
Massimo Giovannini
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引用次数: 0

摘要

静止过程并不能准确描述遗迹引力子的弥散背景,其相关性在空间上是均匀的(即只取决于两个空间位置之间的距离),但在时间上并不均匀。自相关性的对称性最终反映了弥散背景的量子力学起源,并导致晚期时间的非稳态观测值。尤其是频谱能量密度(通常(但近似)与张量功率谱相关)被认为会产生大振荡。当使用频谱能量密度的完整表达式时,振荡幅度反而会在大尺度极限中被抑制,而晚期信号的非稳态特征实际上也会消失。由于类似的原因,在存在非稳态特征的情况下,频谱能量密度和频谱振幅之间的关系也很模糊。虽然非稳态特征是否(或将会)被直接探测到还有待商榷,但我们认为,根据维纳-欣钦定理得出的频谱振幅通常不适合用来描述遗迹信号。尽管如此,只要选择谱能量密度作为关键变量,晚期观测值的强振荡行为就会被自然抹去。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Relic gravitons and non-stationary processes
Stationary processes do not accurately describe the diffuse backgrounds of relic gravitons whose correlations are homogeneous in space (i.e. only dependent upon the distance between the two spatial locations) but not in time. The symmetries of the autocorrelations ultimately reflect the quantum mechanical origin of the diffuse backgrounds and lead to non-stationary observables at late time. In particular, large oscillations are believed to arise in the spectral energy density that is customarily (but approximately) related to the tensor power spectrum. When the full expression of the spectral energy density is employed the amplitudes of oscillation are instead suppressed in the large-scale limit and the non-stationary features of the late-time signal practically disappear. For similar reasons the relations between the spectral energy density and the spectral amplitude are ambiguous in the presence of non-stationary features. While it is debatable if the non-stationary features are (or will be) directly detectable, we argue that the spectral amplitude following from the Wiener-Khintchine theorem is generally inappropriate for a consistent description of the relic signal. Nevertheless the strong oscillatory behaviour of the late-time observables is naturally smeared out provided the spectral energy density is selected as pivotal variable.
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来源期刊
Journal of Cosmology and Astroparticle Physics
Journal of Cosmology and Astroparticle Physics 地学天文-天文与天体物理
CiteScore
10.20
自引率
23.40%
发文量
632
审稿时长
1 months
期刊介绍: Journal of Cosmology and Astroparticle Physics (JCAP) encompasses theoretical, observational and experimental areas as well as computation and simulation. The journal covers the latest developments in the theory of all fundamental interactions and their cosmological implications (e.g. M-theory and cosmology, brane cosmology). JCAP''s coverage also includes topics such as formation, dynamics and clustering of galaxies, pre-galactic star formation, x-ray astronomy, radio astronomy, gravitational lensing, active galactic nuclei, intergalactic and interstellar matter.
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