GAPS, low-energy antimatter for indirect dark-matter search

E. Vannuccini; T. Aramaki; R. Bird; M. Boezio; S.E. Boggs; V.; Bonvicini; D. Campana; W.W. Craig; P. von Doetinchem; E. Everson; L. Fabris,; F. Gahbauer; C. Gerrity; H. Fuke; C.J. Hailey; T. Hayashi; C. Kato; A.; Kawachi; M. Kozai; A. Lowell; M. Martucci; S.I. Mognet; R. Munini; K.; Munakata; S. Okazaki; R.A. Ong; G. Osteria; K. Perez; S. Quinn; J. Ryan; V.; Re; F. Rogers; N. Saffold; Y. Shimizu; R. Sparvoli; A. Stoessl; A. Yoshida,; T. Yoshida; G. Zampa; J. Zweerink

arXiv:1812.06691·physics.ins-det·December 18, 2018·1 cites

GAPS, low-energy antimatter for indirect dark-matter search

E. Vannuccini, T. Aramaki, R. Bird, M. Boezio, S.E. Boggs, V., Bonvicini, D. Campana, W.W. Craig, P. von Doetinchem, E. Everson, L. Fabris,, F. Gahbauer, C. Gerrity, H. Fuke, C.J. Hailey, T. Hayashi, C. Kato, A., Kawachi, M. Kozai, A. Lowell, M. Martucci, S.I. Mognet, R. Munini

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TL;DR

GAPS is a novel detector designed to search for low-energy cosmic-ray antiparticles, especially antideuterons, to indirectly detect dark matter through unique antiparticle annihilation signatures.

Contribution

It introduces a new detection method using exotic atom de-excitation and annihilation signatures for low-energy antiparticle identification in cosmic rays.

Findings

01

Designed to measure antiprotons below 250 MeV

02

Capable of sensitive antideuteron searches

03

Employs unique antiparticle annihilation detection technique

Abstract

The General Antiparticle Spectrometer (GAPS) is designed to carry out indirect dark matter search by measuring low-energy cosmic-ray antiparticles. Below a few GeVs the flux of antiparticles produced by cosmic-ray collisions with the interstellar medium is expected to be very low and several well-motivated beyond-standard models predict a sizable contribution to the antideuteron flux. GAPS is planned to fly on a long-duration balloon over Antarctica in the austral summer of 2020. The primary detector is a 1m3 central volume containing planes of Si(Li) detectors. This volume is surrounded by a time-of-flight system to both trigger the Si(Li) detector and reconstruct the particle tracks. The detection principle of the experiment relies on the identification of the antiparticle annihilation pattern. Low energy antiparticles slow down in the apparatus and they are captured in the medium to…

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Taxonomy

TopicsDark Matter and Cosmic Phenomena · Particle Detector Development and Performance · Atomic and Subatomic Physics Research