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Autori principali: Padilla, Luis E., Hidalgo, Juan Carlos, Malik, Karim A., Mulryne, David
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2405.19271
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author Padilla, Luis E.
Hidalgo, Juan Carlos
Malik, Karim A.
Mulryne, David
author_facet Padilla, Luis E.
Hidalgo, Juan Carlos
Malik, Karim A.
Mulryne, David
contents After primordial inflation, the universe may have experienced a prolonged reheating epoch, potentially leading to a phase of matter domination supported by the oscillating inflaton field. During such an epoch, perturbations in the inflaton virialize upon reentering the cosmological horizon, forming inflaton structures. If the primordial overdensities are sufficiently large, these structures collapse to form primordial black holes (PBHs). To occur at a significant rate, this process requires an enhanced primordial power spectrum (PPS) at small scales. The enhancement of the PPS, as well as the formation and tidal interaction of the primordial structures, will in turn source a stochastic gravitational wave background(SGWB) that could be detected by current and/or future gravitational wave detectors. In this paper, we study the SGWB arising from these different sources during slow-reheating, focusing on a PPS that satisfies the requirements necessary for the formation of PBHs with a mass of $M_{\rm PBH}\simeq 10^{21}$ and that constitute the entirety of dark matter in the universe.
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institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Detecting the Stochastic Gravitational Wave Background from Primordial Black Holes in Slow-reheating Scenarios
Padilla, Luis E.
Hidalgo, Juan Carlos
Malik, Karim A.
Mulryne, David
Cosmology and Nongalactic Astrophysics
After primordial inflation, the universe may have experienced a prolonged reheating epoch, potentially leading to a phase of matter domination supported by the oscillating inflaton field. During such an epoch, perturbations in the inflaton virialize upon reentering the cosmological horizon, forming inflaton structures. If the primordial overdensities are sufficiently large, these structures collapse to form primordial black holes (PBHs). To occur at a significant rate, this process requires an enhanced primordial power spectrum (PPS) at small scales. The enhancement of the PPS, as well as the formation and tidal interaction of the primordial structures, will in turn source a stochastic gravitational wave background(SGWB) that could be detected by current and/or future gravitational wave detectors. In this paper, we study the SGWB arising from these different sources during slow-reheating, focusing on a PPS that satisfies the requirements necessary for the formation of PBHs with a mass of $M_{\rm PBH}\simeq 10^{21}$ and that constitute the entirety of dark matter in the universe.
title Detecting the Stochastic Gravitational Wave Background from Primordial Black Holes in Slow-reheating Scenarios
topic Cosmology and Nongalactic Astrophysics
url https://arxiv.org/abs/2405.19271