Searching for solar KDAR with DUNE

the DUNE Collaboration; Jim Brooke; Sudarshan Paramesvaran; David G Cussans; Shyam Bhuller; Joel A T Greer; Kunal Kothekar; Raul R Stein; Jonas H Rademacker; Stoyan M Trilov

doi:10.1088/1475-7516/2021/10/065

Searching for solar KDAR with DUNE

the DUNE Collaboration, Jim Brooke, Sudarshan Paramesvaran, David G Cussans, Shyam Bhuller, Joel A T Greer, Kunal Kothekar, Raul R Stein, Jonas H Rademacker, Stoyan M Trilov

Research output: Contribution to journal › Article (Academic Journal) › peer-review

7 Citations (Scopus)

Abstract

The observation of 236 MeV muon neutrinos from kaon-decay-at-rest (KDAR) originating in the core of the Sun would provide a unique signature of dark matter annihilation. Since excellent angle and energy reconstruction are necessary to detect this monoenergetic, directional neutrino flux, DUNE with its vast volume and reconstruction capabilities, is a promising candidate for a KDAR neutrino search. In this work, we evaluate the proposed KDAR neutrino search strategies by realistically modeling both neutrino-nucleus interactions and the response of DUNE. We find that, although reconstruction of the neutrino energy and direction is difficult with current techniques in the relevant energy range, the superb energy resolution, angular resolution, and particle identification offered by DUNE can still permit great signal/background discrimination. Moreover, there are non-standard scenarios in which searches at DUNE for KDAR in the Sun can probe dark matter interactions.

Original language	English
Journal	Journal of Cosmology and Astroparticle Physics
Volume	10
Issue number	065
DOIs	https://doi.org/10.1088/1475-7516/2021/10/065
Publication status	Published - 22 Oct 2021

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10.1088/1475-7516/2021/10/065Licence: CC BY

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DUNE PPRP construction
Brooke, J. (Principal Investigator)
1/10/19 → 30/09/23
Project: Research

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title = "Searching for solar KDAR with DUNE",

abstract = "The observation of 236 MeV muon neutrinos from kaon-decay-at-rest (KDAR) originating in the core of the Sun would provide a unique signature of dark matter annihilation. Since excellent angle and energy reconstruction are necessary to detect this monoenergetic, directional neutrino flux, DUNE with its vast volume and reconstruction capabilities, is a promising candidate for a KDAR neutrino search. In this work, we evaluate the proposed KDAR neutrino search strategies by realistically modeling both neutrino-nucleus interactions and the response of DUNE. We find that, although reconstruction of the neutrino energy and direction is difficult with current techniques in the relevant energy range, the superb energy resolution, angular resolution, and particle identification offered by DUNE can still permit great signal/background discrimination. Moreover, there are non-standard scenarios in which searches at DUNE for KDAR in the Sun can probe dark matter interactions.",

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T1 - Searching for solar KDAR with DUNE

AU - the DUNE Collaboration

AU - Brooke, Jim

AU - Paramesvaran, Sudarshan

AU - Cussans, David G

AU - Bhuller, Shyam

AU - Greer, Joel A T

AU - Kothekar, Kunal

AU - Stein, Raul R

AU - Rademacker, Jonas H

AU - Trilov, Stoyan M

PY - 2021/10/22

Y1 - 2021/10/22

N2 - The observation of 236 MeV muon neutrinos from kaon-decay-at-rest (KDAR) originating in the core of the Sun would provide a unique signature of dark matter annihilation. Since excellent angle and energy reconstruction are necessary to detect this monoenergetic, directional neutrino flux, DUNE with its vast volume and reconstruction capabilities, is a promising candidate for a KDAR neutrino search. In this work, we evaluate the proposed KDAR neutrino search strategies by realistically modeling both neutrino-nucleus interactions and the response of DUNE. We find that, although reconstruction of the neutrino energy and direction is difficult with current techniques in the relevant energy range, the superb energy resolution, angular resolution, and particle identification offered by DUNE can still permit great signal/background discrimination. Moreover, there are non-standard scenarios in which searches at DUNE for KDAR in the Sun can probe dark matter interactions.

AB - The observation of 236 MeV muon neutrinos from kaon-decay-at-rest (KDAR) originating in the core of the Sun would provide a unique signature of dark matter annihilation. Since excellent angle and energy reconstruction are necessary to detect this monoenergetic, directional neutrino flux, DUNE with its vast volume and reconstruction capabilities, is a promising candidate for a KDAR neutrino search. In this work, we evaluate the proposed KDAR neutrino search strategies by realistically modeling both neutrino-nucleus interactions and the response of DUNE. We find that, although reconstruction of the neutrino energy and direction is difficult with current techniques in the relevant energy range, the superb energy resolution, angular resolution, and particle identification offered by DUNE can still permit great signal/background discrimination. Moreover, there are non-standard scenarios in which searches at DUNE for KDAR in the Sun can probe dark matter interactions.

U2 - 10.1088/1475-7516/2021/10/065

DO - 10.1088/1475-7516/2021/10/065

M3 - Article (Academic Journal)

SN - 1475-7516

VL - 10

JO - Journal of Cosmology and Astroparticle Physics

JF - Journal of Cosmology and Astroparticle Physics

IS - 065

ER -

Searching for solar KDAR with DUNE

Abstract

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Projects

DUNE PPRP construction

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