Constraints on the very early universe from thermal WIMP dark matter

Manuel Drees; Hoernisa Iminniyaz; Mitsuru Kakizaki

doi:10.1103/PhysRevD.76.103524

Constraints on the very early universe from thermal WIMP dark matter

Manuel Drees^*, Hoernisa Iminniyaz, Mitsuru Kakizaki

^*この論文の責任著者

物理学科

研究成果: ジャーナルへの寄稿 › 学術論文 › 査読

34 被引用数 (Scopus)

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We investigate the relic density nχ of nonrelativistic long-lived or stable particles χ in nonstandard cosmological scenarios. We calculate the relic abundance starting from arbitrary initial temperatures of the radiation-dominated epoch, and derive the lower bound on the initial temperature T0 mχ/23, assuming that thermally produced χ particles account for the dark matter energy density in the Universe; this bound holds for all χ annihilation cross sections. We also investigate cosmological scenarios with modified expansion rate. Even in this case an approximate formula similar to the standard one is capable of predicting the final relic abundance correctly. Choosing the χ annihilation cross section such that the observed cold dark matter abundance is reproduced in standard cosmology, we constrain possible modifications of the expansion rate at T∼mχ/20, well before big bang nucleosynthesis.

本文言語	英語
論文番号	103524
ジャーナル	Physical Review D - Particles, Fields, Gravitation and Cosmology
巻	76
号	10
DOI	https://doi.org/10.1103/PhysRevD.76.103524
出版ステータス	出版済み - 2007/11/15

ASJC Scopus 主題領域

核物理学および高エネルギー物理学
物理学および天文学（その他）

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10.1103/PhysRevD.76.103524

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title = "Constraints on the very early universe from thermal WIMP dark matter",

abstract = "We investigate the relic density nχ of nonrelativistic long-lived or stable particles χ in nonstandard cosmological scenarios. We calculate the relic abundance starting from arbitrary initial temperatures of the radiation-dominated epoch, and derive the lower bound on the initial temperature T0 mχ/23, assuming that thermally produced χ particles account for the dark matter energy density in the Universe; this bound holds for all χ annihilation cross sections. We also investigate cosmological scenarios with modified expansion rate. Even in this case an approximate formula similar to the standard one is capable of predicting the final relic abundance correctly. Choosing the χ annihilation cross section such that the observed cold dark matter abundance is reproduced in standard cosmology, we constrain possible modifications of the expansion rate at T∼mχ/20, well before big bang nucleosynthesis.",

author = "Manuel Drees and Hoernisa Iminniyaz and Mitsuru Kakizaki",

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doi = "10.1103/PhysRevD.76.103524",

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AU - Drees, Manuel

AU - Iminniyaz, Hoernisa

AU - Kakizaki, Mitsuru

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Y1 - 2007/11/15

N2 - We investigate the relic density nχ of nonrelativistic long-lived or stable particles χ in nonstandard cosmological scenarios. We calculate the relic abundance starting from arbitrary initial temperatures of the radiation-dominated epoch, and derive the lower bound on the initial temperature T0 mχ/23, assuming that thermally produced χ particles account for the dark matter energy density in the Universe; this bound holds for all χ annihilation cross sections. We also investigate cosmological scenarios with modified expansion rate. Even in this case an approximate formula similar to the standard one is capable of predicting the final relic abundance correctly. Choosing the χ annihilation cross section such that the observed cold dark matter abundance is reproduced in standard cosmology, we constrain possible modifications of the expansion rate at T∼mχ/20, well before big bang nucleosynthesis.

AB - We investigate the relic density nχ of nonrelativistic long-lived or stable particles χ in nonstandard cosmological scenarios. We calculate the relic abundance starting from arbitrary initial temperatures of the radiation-dominated epoch, and derive the lower bound on the initial temperature T0 mχ/23, assuming that thermally produced χ particles account for the dark matter energy density in the Universe; this bound holds for all χ annihilation cross sections. We also investigate cosmological scenarios with modified expansion rate. Even in this case an approximate formula similar to the standard one is capable of predicting the final relic abundance correctly. Choosing the χ annihilation cross section such that the observed cold dark matter abundance is reproduced in standard cosmology, we constrain possible modifications of the expansion rate at T∼mχ/20, well before big bang nucleosynthesis.

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JO - Physical Review D - Particles, Fields, Gravitation and Cosmology

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Constraints on the very early universe from thermal WIMP dark matter

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