Searching for boosted dark matter at ProtoDUNE

Animesh Chatterjee; Albert De Roeck; Doojin Kim; Zahra Gh Moghaddam; Jong Chul Park; Seodong Shin; Leigh H. Whitehead; Jaehoon Yu

doi:10.1103/PhysRevD.98.075027

Searching for boosted dark matter at ProtoDUNE

Animesh Chatterjee
, Albert De Roeck
, Doojin Kim
, Zahra Gh Moghaddam
, Jong Chul Park
, Seodong Shin
, Leigh H. Whitehead
, Jaehoon Yu

Department of Physics

University of Texas at Arlington
CERN
Chungnam National University
The University of Chicago
Yonsei University

Research output: Contribution to journal › Journal article › peer-review

35 Scopus citations

Abstract

We propose the first experimental test of the inelastic boosted dark matter hypothesis, capitalizing on the new physics potential with the imminent data taking of the ProtoDUNE detectors. More specifically, we explore various experimental signatures at the cosmic frontier, arising in boosted dark matter scenarios, i.e., relativistic, inelastic scattering of boosted dark matter often created by the annihilation of its heavier component which usually comprises of the dominant relic abundance. Although features are unique enough to isolate signal events from potential backgrounds, vetoing a vast amount of cosmic background is rather challenging as the detectors are located on the ground. We argue, with a careful estimate, that such backgrounds nevertheless can be well under control by performing dedicated analyses after data acquisition. We then discuss some phenomenological studies which can be achieved with ProtoDUNE, employing a dark photon scenario as our benchmark dark-sector model.

Original language	English
Article number	075027
Journal	Physical Review D
Volume	98
Issue number	7
DOIs	https://doi.org/10.1103/PhysRevD.98.075027
State	Published - 2018.10.1

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10.1103/PhysRevD.98.075027

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title = "Searching for boosted dark matter at ProtoDUNE",

abstract = "We propose the first experimental test of the inelastic boosted dark matter hypothesis, capitalizing on the new physics potential with the imminent data taking of the ProtoDUNE detectors. More specifically, we explore various experimental signatures at the cosmic frontier, arising in boosted dark matter scenarios, i.e., relativistic, inelastic scattering of boosted dark matter often created by the annihilation of its heavier component which usually comprises of the dominant relic abundance. Although features are unique enough to isolate signal events from potential backgrounds, vetoing a vast amount of cosmic background is rather challenging as the detectors are located on the ground. We argue, with a careful estimate, that such backgrounds nevertheless can be well under control by performing dedicated analyses after data acquisition. We then discuss some phenomenological studies which can be achieved with ProtoDUNE, employing a dark photon scenario as our benchmark dark-sector model.",

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AU - Chatterjee, Animesh

AU - De Roeck, Albert

AU - Kim, Doojin

AU - Moghaddam, Zahra Gh

AU - Park, Jong Chul

AU - Shin, Seodong

AU - Whitehead, Leigh H.

AU - Yu, Jaehoon

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AB - We propose the first experimental test of the inelastic boosted dark matter hypothesis, capitalizing on the new physics potential with the imminent data taking of the ProtoDUNE detectors. More specifically, we explore various experimental signatures at the cosmic frontier, arising in boosted dark matter scenarios, i.e., relativistic, inelastic scattering of boosted dark matter often created by the annihilation of its heavier component which usually comprises of the dominant relic abundance. Although features are unique enough to isolate signal events from potential backgrounds, vetoing a vast amount of cosmic background is rather challenging as the detectors are located on the ground. We argue, with a careful estimate, that such backgrounds nevertheless can be well under control by performing dedicated analyses after data acquisition. We then discuss some phenomenological studies which can be achieved with ProtoDUNE, employing a dark photon scenario as our benchmark dark-sector model.

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Searching for boosted dark matter at ProtoDUNE

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