Weakly interacting massive particle cross section limits from LOFAR observations of dwarf spheroidal galaxies

L., Gajović,; Welzmüller, F.; V., Heesen,; F., de Gasperin,; Vollmann, M.; M., Brüggen,; Basu, A.; Beck, R.; Schwarz, D. J.; J., Bomans, D.; A., Drabent,

doi:10.1051/0004-6361/202245508

Cited by 5 publications

(1 citation statement)

References 67 publications

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“…Such uncertainty on the magnetic properties has led to an uncertainty of several orders of magnitude in the predicted radio signal in dSphs [9], and thus in the bounds on the WIMP annihilation rate [5,[9][10][11][12][13][14][15][16][17]. Its assessment is thus mandatory to determine whether or not dSphs are promising targets for WIMP radio searches.…”

Section: Jcap08(2023)030mentioning

confidence: 99%

The self-confinement of electrons and positrons from dark matter

Regis

Korsmeier

Bernardi

et al. 2023

J. Cosmol. Astropart. Phys.

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Radiative emissions from electrons and positrons generated by dark matter (DM) annihilation or decay are one of the most investigated signals in indirect searches of WIMPs. Ideal targets must have large ratio of DM to baryonic matter. However, such “dark” systems have a poorly known level of magnetic turbulence, which determines the residence time of the electrons and positrons and therefore also the strength of the expected signal. This typically leads to significant uncertainties in the derived DM bounds. In a novel approach, we compute the self-confinement of the DM-induced electrons and positrons. Indeed, they themselves generate irregularities in the magnetic field, thus setting a lower limit on the presence of the magnetic turbulence. We specifically apply this approach to dwarf spheroidal galaxies. Finally, by comparing the expected synchrotron emission with radio data from the direction of the Draco galaxy collected at the Giant Metre Radio Telescope, we show that the proposed approach can be used to set robust and competitive bounds on WIMP DM.

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Section: Jcap08(2023)030mentioning

confidence: 99%

The self-confinement of electrons and positrons from dark matter

Regis

Korsmeier

Bernardi

et al. 2023

J. Cosmol. Astropart. Phys.

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DarkMatters: A powerful tool for WIMPy analysis

Sarkis,

Beck

2025

Physics of the Dark Universe

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diffSph: a Python tool to compute diffuse signals from dwarf spheroidal galaxies

Vollmann,

Welzmüller,

Gajović

2024

J. Cosmol. Astropart. Phys.

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So far no diffuse emissions in dwarf spheroidal satellites of the Milky Way have ever been observed. Given that dwarf galaxies are predominantly composed of Dark Matter, the discovery of these signals could offer valuable insights into understanding the nature of Dark Matter. We present “diffSph”, a Python tool which in its present version provides fast predictions of such diffuse signals in radio frequencies. It also features a very comprehensive module for the computation of “J” and “D” factors that are relevant for indirect Dark Matter detection using gamma rays. Routines are coupled to parton-shower algorithms and Dark Matter halo mass functions from state-of-the-art kinematic fits. This code is also useful for testing generic hypotheses (not necessarily associated with any Dark Matter candidate) about the cosmic-ray electron/positron sources in the dwarf galaxies. The diffSph tool has already been employed in searches for diffuse signals from dwarf spheroidal galaxies using the LOw Frequency ARray (LOFAR).

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Weakly interacting massive particle cross section limits from LOFAR observations of dwarf spheroidal galaxies

Cited by 5 publications

References 67 publications

The self-confinement of electrons and positrons from dark matter

The self-confinement of electrons and positrons from dark matter

DarkMatters: A powerful tool for WIMPy analysis

diffSph: a Python tool to compute diffuse signals from dwarf spheroidal galaxies

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