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Autori principali: Du, Jin-Rong, Zhang, Zi-Zhuo, Li, Nan
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2605.19463
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author Du, Jin-Rong
Zhang, Zi-Zhuo
Li, Nan
author_facet Du, Jin-Rong
Zhang, Zi-Zhuo
Li, Nan
contents Primordial black holes (PBHs) have attracted intensive research interest as a promising candidate of dark matter. However, because of the Hawking radiation, the PBHs lighter than $10^{15}~\rm{g}$ have already evaporated before today. To extend the PBH mass window to small-mass range, two possible ingredients are explored. The first is the consideration of regular PBHs with non-singular metrics, which can decrease the Hawking temperature, thereby lowering black hole evaporation. The second is the incorporation of the memory burden (MB) effect, which can further suppress the evaporation rate, after regular PBHs have lost a certain amount of their initial masses. In this work, we combine these two ingredients and study the MB effects of three types of regular PBHs (the Hayward, Bardeen and Simpson--Visser black holes). Assuming a phenomenological self-similar evaporation, we find that the MB effect significantly relaxes the evaporation constraints. For a benchmark of the MB strength parameter $k=1$, a new PBH mass window opens at around $10^6$--$10^8$ g, where regular PBHs can compose all dark matter without violating the Big Bang nucleosynthesis bounds.
format Preprint
id arxiv_https___arxiv_org_abs_2605_19463
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Memory burden effect of regular primordial black holes
Du, Jin-Rong
Zhang, Zi-Zhuo
Li, Nan
Cosmology and Nongalactic Astrophysics
Primordial black holes (PBHs) have attracted intensive research interest as a promising candidate of dark matter. However, because of the Hawking radiation, the PBHs lighter than $10^{15}~\rm{g}$ have already evaporated before today. To extend the PBH mass window to small-mass range, two possible ingredients are explored. The first is the consideration of regular PBHs with non-singular metrics, which can decrease the Hawking temperature, thereby lowering black hole evaporation. The second is the incorporation of the memory burden (MB) effect, which can further suppress the evaporation rate, after regular PBHs have lost a certain amount of their initial masses. In this work, we combine these two ingredients and study the MB effects of three types of regular PBHs (the Hayward, Bardeen and Simpson--Visser black holes). Assuming a phenomenological self-similar evaporation, we find that the MB effect significantly relaxes the evaporation constraints. For a benchmark of the MB strength parameter $k=1$, a new PBH mass window opens at around $10^6$--$10^8$ g, where regular PBHs can compose all dark matter without violating the Big Bang nucleosynthesis bounds.
title Memory burden effect of regular primordial black holes
topic Cosmology and Nongalactic Astrophysics
url https://arxiv.org/abs/2605.19463