Author:
Li Jun-Peng,Wang Sai,Zhao Zhi-Chao,Kohri Kazunori
Abstract
AbstractPrimordial non-Gaussianity encodes vital information of the physics of the early universe, particularly during the inflationary epoch. To explore the local-type primordial non-GaussianityfNL, we study the anisotropies in gravitational wave background induced by the linear cosmological scalar perturbations during radiation domination in the early universe. We provide the first complete analysis to the angular power spectrum of such scalar-induced gravitational waves. The spectrum is expressed in terms of the initial inhomogeneities, the Sachs-Wolfe effect, and their crossing. It is anticipated to have frequency dependence and multipole dependence, i.e.,Cℓ(ν) ∝ [ℓ(ℓ+1)]-1withνbeing a frequency andℓreferring to theℓ-th spherical harmonic multipole. In particular, the initial inhomogeneites in this background depend on gravitational-wave frequency. These properties are potentially useful for the component separation, foreground removal, and breaking degeneracies in model parameters, making the non-Gaussian parameterfNLmeasurable. Further, theoretical expectations may be tested by space-borne gravitational-wave detectors in future.
Subject
Astronomy and Astrophysics
Cited by
3 articles.
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