Constraints on the primordial curvature power spectrum at small scales between $3\times 10^{18}$ and $4.5\times 10^{21}~\rm Mpc^{-1}$

TL;DR

This paper derives new constraints on the primordial curvature power spectrum at small scales by analyzing recent theoretical developments and existing limits on primordial black holes, expanding the understanding of early universe conditions.

Contribution

It introduces novel constraints on the small-scale power spectrum based on recent black hole physics and PBH abundance limits, covering previously underexplored scales.

Findings

New bounds on $ ext{P}_ ext{R}$ for $3 imes 10^{18}$ to $4.5 imes 10^{21}~ m Mpc^{-1}$

Constraints derived from black hole evaporation and relics

Enhanced understanding of small-scale primordial fluctuations

Abstract

The primordial curvature power spectrum $\mathcal{P}_\mathcal{R}$ has been measured with high precision on large scales $10^{-4}\lesssim k\lesssim 3~\rm Mpc^{-1}$ based on observations of the cosmic microwave background, Lyman-$\alpha$ forest and large scale structure. On small scales $3\lesssim k \lesssim 10^{23}~\rm Mpc^{-1}$, constraints are primarily derived from studies on primordial black holes (PBHs). In particular, for very small scales $10^{17}\lesssim k\lesssim 10^{23}~{\rm Mpc^{-1}}$, current limits come exclusively from investigations of the lightest supersymmetric particles produced by PBH radiation and the stable Planck-mass relics after their evaporation. Recent findings also indicate that the evaporation of light PBHs ($M_{\rm PBH}\lesssim 10^{9}~\rm g$) can modify the expansion rate of the Universe and the baryon-to-photon ratio, thereby affecting the primordial abundance of light nuclei. Moreover, it has been proposed that the ``memory burden'' effect can slow down the mass loss rate of black holes, allowing light PBHs to survive until the present day. Based on recent theoretical advancements in black hole physics and existing constraints on the initial mass fraction of light PBHs with masses $10^{3}\lesssim M_{\rm PBH}\lesssim 2\times 10^{9}~\rm g$, we derive new constraints on $\mathcal{P}_\mathcal{R}$ on small scales $3\times 10^{18}\lesssim k\lesssim 4.5\times 10^{21}~\rm Mpc^{-1}$, a regime that has been underexplored in previous literature.