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Hauptverfasser: Nishizawa, Atsushi J., Natwariya, Pravin Kumar, Kadota, Kenji
Format: Preprint
Veröffentlicht: 2024
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Online-Zugang:https://arxiv.org/abs/2410.04755
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author Nishizawa, Atsushi J.
Natwariya, Pravin Kumar
Kadota, Kenji
author_facet Nishizawa, Atsushi J.
Natwariya, Pravin Kumar
Kadota, Kenji
contents We explore the impact of dark matter annihilation on the 21-cm signal during the cosmic dawn and epoch of reionization (EoR). Using modified 21cmFAST simulations and convolutional neural networks (CNNs), we investigate how energy injected into the intergalactic medium (IGM) through dark matter annihilation affects the evolution of the 21-cm differential brightness temperature. Focusing on two annihilation channels, photon-photon ($γγ$) and electron-positron ($e^+e^-$), we examine a broad range of dark matter masses and annihilation cross-sections. Our results show that CNNs outperform traditional power spectrum analysis by effectively distinguishing between subtle differences in simulated 21-cm maps produced by annihilation and non-annihilation scenarios. We also demonstrate that the structure formation boost, driven by dark matter clumping into halos and subhalos, significantly enhances the annihilation signal and alters the thermal and ionization history of the IGM. This enhancement leads to a noticeable effect on the 21-cm signal, including a shift from absorption to emission as dark matter annihilation heats the IGM at lower redshifts. By incorporating observational noise from upcoming radio interferometers, particularly the Square Kilometer Array (SKA), we show that these effects remain detectable despite observational challenges. We find that the dark matter annihilation models can leave measurable imprints on the 21-cm signal distinguishable from the non-annihilation scenarios for the dark matter masses $m_{\rm DM}=100$ MeV and the annihilation cross-sections of $\langle σv\rangle \simeq 10^{-31}~{\rm cm}^3/{\rm s}$ ($\langle σv\rangle \simeq 10^{-32}~{\rm cm}^3/{\rm s}$ for $m_{\rm DM}=1$ MeV and $\langle σv\rangle \simeq 10^{-24}~{\rm cm}^3/{\rm s}$ for $m_{\rm DM}=1$ TeV).
format Preprint
id arxiv_https___arxiv_org_abs_2410_04755
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Machine Learning Constraints on Dark Matter Annihilation during the Epoch of Reionization: A CNN Analysis of the 21-cm Signal
Nishizawa, Atsushi J.
Natwariya, Pravin Kumar
Kadota, Kenji
Cosmology and Nongalactic Astrophysics
High Energy Physics - Phenomenology
We explore the impact of dark matter annihilation on the 21-cm signal during the cosmic dawn and epoch of reionization (EoR). Using modified 21cmFAST simulations and convolutional neural networks (CNNs), we investigate how energy injected into the intergalactic medium (IGM) through dark matter annihilation affects the evolution of the 21-cm differential brightness temperature. Focusing on two annihilation channels, photon-photon ($γγ$) and electron-positron ($e^+e^-$), we examine a broad range of dark matter masses and annihilation cross-sections. Our results show that CNNs outperform traditional power spectrum analysis by effectively distinguishing between subtle differences in simulated 21-cm maps produced by annihilation and non-annihilation scenarios. We also demonstrate that the structure formation boost, driven by dark matter clumping into halos and subhalos, significantly enhances the annihilation signal and alters the thermal and ionization history of the IGM. This enhancement leads to a noticeable effect on the 21-cm signal, including a shift from absorption to emission as dark matter annihilation heats the IGM at lower redshifts. By incorporating observational noise from upcoming radio interferometers, particularly the Square Kilometer Array (SKA), we show that these effects remain detectable despite observational challenges. We find that the dark matter annihilation models can leave measurable imprints on the 21-cm signal distinguishable from the non-annihilation scenarios for the dark matter masses $m_{\rm DM}=100$ MeV and the annihilation cross-sections of $\langle σv\rangle \simeq 10^{-31}~{\rm cm}^3/{\rm s}$ ($\langle σv\rangle \simeq 10^{-32}~{\rm cm}^3/{\rm s}$ for $m_{\rm DM}=1$ MeV and $\langle σv\rangle \simeq 10^{-24}~{\rm cm}^3/{\rm s}$ for $m_{\rm DM}=1$ TeV).
title Machine Learning Constraints on Dark Matter Annihilation during the Epoch of Reionization: A CNN Analysis of the 21-cm Signal
topic Cosmology and Nongalactic Astrophysics
High Energy Physics - Phenomenology
url https://arxiv.org/abs/2410.04755