4.7 Article

Indirect detection of eV dark matter via infrared spectroscopy

Journal

PHYSICAL REVIEW D
Volume 106, Issue 9, Pages -

Publisher

AMER PHYSICAL SOC
DOI: 10.1103/PhysRevD.106.095025

Keywords

-

Funding

  1. JSPS KAKENHI
  2. [20H05851]
  3. [21K20364]
  4. [22K14029]
  5. [22H01215]

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This paper studies the indirect detection of dark matter decaying into infrared light using infrared spectrographs, and shows that serious thermal and astrophysical noises can be overcome. Concrete examples, such as the WINERED and NIRSpec, installed at the Magellan telescope and the JWST, are discussed. The study demonstrates that measurements with these spectrographs can probe specific mass and photon coupling ranges of axionlike particle dark matter.
Infrared spectroscopy has been developed significantly. In particular, infrared photons can be measured with high spectral and angular resolution in state-of-the-art spectrographs. They are sensitive to monochromatic photons due to the decay and annihilation of particles beyond the standard model, such as dark matter (DM), while being insensitive to background photons that form a continuous spectrum. In this paper, we study the indirect detection of the DM decaying into infrared light using infrared spectrographs. In particular, we show that serious thermal and astrophysical noises can be overcome. As concrete examples, the Warm INfrared Echelle spectrograph to Realize Extreme Dispersion and sensitivity (WINERED) installed at the Magellan Clay 6.5 m telescope and Near-InfraRed Spectrograph (NIRSpec) at the James Webb Space Telescope (JWST) are discussed. We show that a few hours of measurements of a faint dwarf spheroidal galaxy with WINERED (NIRSpec-like spectrograph) in the Magellan telescope (JWST) can probe an axionlike particle DM in the mass range m phi = 1.8-2.7 eV (0.5-4 eV) with a photon coupling g phi yy greater than or similar to 10-11 GeV-1. Complemental approaches, taking advantage of the high resolutions, such as the measurement of the Doppler shift of the signal photon lines and the possible search of the DM decay around the Milky Way Galaxy Center with infrared camera and spectrograph at 8.2 m Subaru telescope, are also presented.

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