Resurrecting Hitomi for Decaying Dark Matter and Forecasting Leading Sensitivity for XRISM.

The Hitomi x-ray satellite mission carried unique high-resolution spectrometers that were set to revolutionize the search for sterile neutrino dark matter (DM) by looking for narrow x-ray lines arising from DM decays. Unfortunately, the satellite was lost shortly after launch, and to date the only analysis using Hitomi for DM decay used data taken towards the Perseus cluster. In this work we present a significantly more sensitive search from an analysis of archival Hitomi data towards blank sky locations, searching for DM decaying in our own Milky Way. The recently launched XRISM satellite has nearly identical soft-x-ray spectral capabilities to Hitomi; we project the full-mission sensitivity of XRISM for analyses of their future blank-sky data, and we find that XRISM will have the leading sensitivity to decaying DM for masses between roughly 1 to 18 keV, with important implications for sterile neutrino and heavy axionlike particle DM scenarios.

[1]  T. Schwetz,et al.  Axion dark matter from lepton flavor-violating decays , 2022, Physics Letters B.

[2]  J. Bovy,et al.  A direct measurement of the distance to the Galactic center using the kinematics of bar stars , 2022, 2204.12551.

[3]  A. Price-Whelan,et al.  Snowmass2021 Theory Frontier White Paper: Astrophysical and Cosmological Probes of Dark Matter , 2022, Journal of High Energy Astrophysics.

[4]  Basudeb Dasgupta,et al.  Sterile Neutrinos , 2021, 2106.05913.

[5]  A. Schwope,et al.  TheXMM-Newtonserendipitous survey , 2020, Astronomy & Astrophysics.

[6]  B. Safdi,et al.  Response to a comment on Dessert et al. “The dark matter interpretation of the 3.5 keV line is inconsistent with blank-sky observations” , 2020 .

[7]  C. Frenk,et al.  The milky way total mass profile as inferred from Gaia DR2 , 2019, Monthly Notices of the Royal Astronomical Society.

[8]  C. Frenk,et al.  Simulating the Dark Matter Decay Signal from the Perseus Galaxy Cluster , 2019, The Astrophysical Journal.

[9]  B. Safdi,et al.  The dark matter interpretation of the 3.5-keV line is inconsistent with blank-sky observations , 2018, Science.

[10]  T. Kitayama,et al.  An X-ray spectroscopic search for dark matter and unidentified line signatures in the Perseus cluster with Hitomi , 2018, Publications of the Astronomical Society of Japan.

[11]  H. Rix,et al.  The Circular Velocity Curve of the Milky Way from 5 to 25 kpc , 2018, The Astrophysical Journal.

[12]  A. Boyarsky,et al.  Sterile neutrino Dark Matter , 2018, Progress in Particle and Nuclear Physics.

[13]  Matteo Guainazzi,et al.  Glimpse of the highly obscured HMXB IGR J16318−4848 with Hitomi , 2017, 1711.07727.

[14]  K. Abazajian Sterile neutrinos in cosmology , 2017, 1705.01837.

[15]  E. Bulbul,et al.  Searching for the 3.5 keV Line in the Deep Fields with Chandra: The 10 Ms Observations , 2017, 1701.07932.

[16]  Ryuichi Fujimoto,et al.  The Astro-H high resolution soft x-ray spectrometer , 2016, Astronomical Telescopes + Instrumentation.

[17]  Gregory V. Brown,et al.  Hitomi Constraints on the 3.5 keV Line in the Perseus Galaxy Cluster , 2016, 1607.07420.

[18]  Matteo Guainazzi,et al.  The quiescent intracluster medium in the core of the Perseus cluster , 2016, Nature.

[19]  J. Read,et al.  Dark matter annihilation and decay in dwarf spheroidal galaxies: the classical and ultrafaint dSphs , 2015, 1504.02048.

[20]  S. Allen,et al.  A Suzaku Search for Dark Matter Emission Lines in the X-ray Brightest Galaxy Clusters , 2014, 1411.0050.

[21]  T. Jeltema,et al.  Discovery of a 3.5 keV line in the Galactic Centre and a critical look at the origin of the line across astronomical targets , 2014, 1408.1699.

[22]  F. Takahashi,et al.  The 7 keV axion dark matter and the X-ray line signal , 2014, 1402.6965.

[23]  K. Cranmer,et al.  Erratum to: Asymptotic formulae for likelihood-based tests of new physics , 2013 .

[24]  K. Cranmer,et al.  Asymptotic formulae for likelihood-based tests of new physics , 2010, 1007.1727.

[25]  W. Dehnen,et al.  Local kinematics and the local standard of rest , 2009, 0912.3693.

[26]  W. Dehnen,et al.  The velocity dispersion and mass profile of the Milky Way , 2006, astro-ph/0603825.

[27]  S. White,et al.  A Universal Density Profile from Hierarchical Clustering , 1996, astro-ph/9611107.

[28]  S. White,et al.  The Structure of cold dark matter halos , 1995, astro-ph/9508025.

[29]  P. Gondoin,et al.  XMM-Newton observatory. I. The spacecraft and operations , 2001 .