Reevaluation of the cosmic antideuteron flux from cosmic-ray interactions and from exotic sources

Laura Šerkšnytė; Stephan Königstorfer; Philip Von Doetinchem; Laura Fabbietti; Diego Mauricio Gomez-Coral; Johannes Herms; Alejandro Ibarra; Thomas Pöschl; Anirvan Shukla; Andrew Strong; Ivan Vorobyev

doi:10.1103/PhysRevD.105.083021

Reevaluation of the cosmic antideuteron flux from cosmic-ray interactions and from exotic sources

Laura Šerkšnytė, Stephan Königstorfer, Philip Von Doetinchem, Laura Fabbietti, Diego Mauricio Gomez-Coral, Johannes Herms, Alejandro Ibarra, Thomas Pöschl, Anirvan Shukla, Andrew Strong, Ivan Vorobyev

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10 Scopus citations

Abstract

Cosmic-ray antideuterons could be a key for the discovery of exotic phenomena in our Galaxy, such as dark-matter annihilations or primordial black hole evaporation. Unfortunately the theoretical predictions of the antideuteron flux at Earth are plagued with uncertainties from the mechanism of antideuteron production and propagation in the Galaxy. We present the most up-to-date calculation of the antideuteron fluxes from cosmic-ray collisions with the interstellar medium and from exotic processes. We include for the first time the antideuteron inelastic interaction cross section recently measured by the ALICE collaboration to account for the loss of antideuterons during propagation. In order to bracket the uncertainty in the expected fluxes, we consider several state-of-the-art models of antideuteron production and of cosmic-ray propagation.

Original language	English
Article number	083021
Journal	Physical Review D
Volume	105
Issue number	8
DOIs	https://doi.org/10.1103/PhysRevD.105.083021
State	Published - 15 Apr 2022

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10.1103/PhysRevD.105.083021

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title = "Reevaluation of the cosmic antideuteron flux from cosmic-ray interactions and from exotic sources",

abstract = "Cosmic-ray antideuterons could be a key for the discovery of exotic phenomena in our Galaxy, such as dark-matter annihilations or primordial black hole evaporation. Unfortunately the theoretical predictions of the antideuteron flux at Earth are plagued with uncertainties from the mechanism of antideuteron production and propagation in the Galaxy. We present the most up-to-date calculation of the antideuteron fluxes from cosmic-ray collisions with the interstellar medium and from exotic processes. We include for the first time the antideuteron inelastic interaction cross section recently measured by the ALICE collaboration to account for the loss of antideuterons during propagation. In order to bracket the uncertainty in the expected fluxes, we consider several state-of-the-art models of antideuteron production and of cosmic-ray propagation.",

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AU - Šerkšnytė, Laura

AU - Königstorfer, Stephan

AU - Von Doetinchem, Philip

AU - Fabbietti, Laura

AU - Gomez-Coral, Diego Mauricio

AU - Herms, Johannes

AU - Ibarra, Alejandro

AU - Pöschl, Thomas

AU - Shukla, Anirvan

AU - Strong, Andrew

AU - Vorobyev, Ivan

PY - 2022/4/15

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AB - Cosmic-ray antideuterons could be a key for the discovery of exotic phenomena in our Galaxy, such as dark-matter annihilations or primordial black hole evaporation. Unfortunately the theoretical predictions of the antideuteron flux at Earth are plagued with uncertainties from the mechanism of antideuteron production and propagation in the Galaxy. We present the most up-to-date calculation of the antideuteron fluxes from cosmic-ray collisions with the interstellar medium and from exotic processes. We include for the first time the antideuteron inelastic interaction cross section recently measured by the ALICE collaboration to account for the loss of antideuterons during propagation. In order to bracket the uncertainty in the expected fluxes, we consider several state-of-the-art models of antideuteron production and of cosmic-ray propagation.

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Reevaluation of the cosmic antideuteron flux from cosmic-ray interactions and from exotic sources

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