Lyman- α constraints on ultralight scalar dark matter: Implications for the early and late universe

Takeshi Kobayashi; Riccardo Murgia; Andrea De Simone; Vid Iršič; Matteo Viel

doi:10.1103/PhysRevD.96.123514

Lyman- α constraints on ultralight scalar dark matter: Implications for the early and late universe

Takeshi Kobayashi
, Riccardo Murgia
, Andrea De Simone
, Vid Iršič
, Matteo Viel

Research output: Contribution to journal › Article › peer-review

177 Citations (Scopus)

Abstract

We investigate constraints on scalar dark matter (DM) by analyzing the Lyman-α forest, which probes structure formation at medium and small scales, and also by studying its cosmological consequences at high and low redshift. For scalar DM that constitutes more than 30% of the total DM density, we obtain a lower limit m10-21 eV for the mass of scalar DM. This implies an upper limit on the initial field displacement (or the decay constant for an axion-like field) of φ1016 GeV. We also derive limits on the energy scale of cosmic inflation and establish an upper bound on the tensor-to-scalar ratio of r<10-3 in the presence of scalar DM. Furthermore, we show that there is very little room for ultralight scalar DM to solve the "small-scale crisis" of cold DM without spoiling the Lyman-α forest results. The constraints presented in this paper can be used for testing generic theories that contain light scalar fields.

Original language	English
Article number	123514
Journal	Physical Review D
Volume	96
Issue number	12
DOIs	https://doi.org/10.1103/PhysRevD.96.123514
Publication status	Published - 15 Dec 2017

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title = "Lyman- α constraints on ultralight scalar dark matter: Implications for the early and late universe",

abstract = "We investigate constraints on scalar dark matter (DM) by analyzing the Lyman-α forest, which probes structure formation at medium and small scales, and also by studying its cosmological consequences at high and low redshift. For scalar DM that constitutes more than 30\% of the total DM density, we obtain a lower limit m10-21 eV for the mass of scalar DM. This implies an upper limit on the initial field displacement (or the decay constant for an axion-like field) of φ1016 GeV. We also derive limits on the energy scale of cosmic inflation and establish an upper bound on the tensor-to-scalar ratio of r<10-3 in the presence of scalar DM. Furthermore, we show that there is very little room for ultralight scalar DM to solve the {"}small-scale crisis{"} of cold DM without spoiling the Lyman-α forest results. The constraints presented in this paper can be used for testing generic theories that contain light scalar fields.",

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T2 - Implications for the early and late universe

AU - Kobayashi, Takeshi

AU - Murgia, Riccardo

AU - De Simone, Andrea

AU - Iršič, Vid

AU - Viel, Matteo

PY - 2017/12/15

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N2 - We investigate constraints on scalar dark matter (DM) by analyzing the Lyman-α forest, which probes structure formation at medium and small scales, and also by studying its cosmological consequences at high and low redshift. For scalar DM that constitutes more than 30% of the total DM density, we obtain a lower limit m10-21 eV for the mass of scalar DM. This implies an upper limit on the initial field displacement (or the decay constant for an axion-like field) of φ1016 GeV. We also derive limits on the energy scale of cosmic inflation and establish an upper bound on the tensor-to-scalar ratio of r<10-3 in the presence of scalar DM. Furthermore, we show that there is very little room for ultralight scalar DM to solve the "small-scale crisis" of cold DM without spoiling the Lyman-α forest results. The constraints presented in this paper can be used for testing generic theories that contain light scalar fields.

AB - We investigate constraints on scalar dark matter (DM) by analyzing the Lyman-α forest, which probes structure formation at medium and small scales, and also by studying its cosmological consequences at high and low redshift. For scalar DM that constitutes more than 30% of the total DM density, we obtain a lower limit m10-21 eV for the mass of scalar DM. This implies an upper limit on the initial field displacement (or the decay constant for an axion-like field) of φ1016 GeV. We also derive limits on the energy scale of cosmic inflation and establish an upper bound on the tensor-to-scalar ratio of r<10-3 in the presence of scalar DM. Furthermore, we show that there is very little room for ultralight scalar DM to solve the "small-scale crisis" of cold DM without spoiling the Lyman-α forest results. The constraints presented in this paper can be used for testing generic theories that contain light scalar fields.

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Lyman- α constraints on ultralight scalar dark matter: Implications for the early and late universe

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