Dual MeV gamma-ray and dark matter observatory - GRAMS Project

GRAMS (Gamma-Ray and AntiMatter Survey) is a novel project that can simultaneously target both astrophysical observations with MeV gamma rays and an indirect dark matter search with antimatter. The GRAMS instrument is designed with a cost-effective, large-scale LArTPC (Liquid Argon Time Projection C...

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Published in	Astroparticle physics Vol. 114; no. C; pp. 107 - 114
Main Authors	Aramaki, Tsuguo, Adrian, Per Ola Hansson, Karagiorgi, Georgia, Odaka, Hirokazu
Format	Journal Article
Language	English
Published	Netherlands Elsevier B.V 01.01.2020 Elsevier
Subjects	AMS-02 Antideuterons Antiheliums Antimatter Antiprotons Dark matter Fermi GCE GAPS GRAMS LArTPC MeV gamma rays Antimatter GRAMS Fermi GCE LArTPC Dark matter AMS-02 Antiprotons Antideuterons GAPS Antiheliums MeV gamma rays
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Abstract	GRAMS (Gamma-Ray and AntiMatter Survey) is a novel project that can simultaneously target both astrophysical observations with MeV gamma rays and an indirect dark matter search with antimatter. The GRAMS instrument is designed with a cost-effective, large-scale LArTPC (Liquid Argon Time Projection Chamber) detector surrounded by plastic scintillators. The astrophysical observations at MeV energies have not yet been well-explored (the so-called “MeV-gap”) and GRAMS can improve the sensitivity by more than an order of magnitude compared to previous experiments. While primarily focusing on MeV gamma-ray observations, GRAMS is also optimized for cosmic ray antimatter surveys to indirectly search for dark matter. In particular, low-energy antideuterons will provide an essentially background-free dark matter signature. GRAMS will be a next generation experiment beyond the current GAPS (General AntiParticle Spectrometer) project for antimatter survey.
AbstractList	GRAMS (Gamma-Ray and AntiMatter Survey) is a novel project that can simultaneously target both astrophysical observations with MeV gamma rays and an indirect dark matter search with antimatter. The GRAMS instrument is designed with a cost-effective, large-scale LArTPC (Liquid Argon Time Projection Chamber) detector surrounded by plastic scintillators. The astrophysical observations at MeV energies have not yet been well-explored (the so-called “MeV-gap”) and GRAMS can improve the sensitivity by more than an order of magnitude compared to previous experiments. While primarily focusing on MeV gamma-ray observations, GRAMS is also optimized for cosmic ray antimatter surveys to indirectly search for dark matter. In particular, low-energy antideuterons will provide an essentially background-free dark matter signature. GRAMS will be a next generation experiment beyond the current GAPS (General AntiParticle Spectrometer) project for antimatter survey.
Author	Adrian, Per Ola Hansson Karagiorgi, Georgia Odaka, Hirokazu Aramaki, Tsuguo
Author_xml	– sequence: 1 givenname: Tsuguo surname: Aramaki fullname: Aramaki, Tsuguo email: tsuguo@slac.stanford.edu organization: SLAC National Accelerator Laboratory/Kavli Institute for Particle Astrophysics and Cosmology, Menlo Park, CA 94025, USA – sequence: 2 givenname: Per Ola Hansson surname: Adrian fullname: Adrian, Per Ola Hansson organization: SLAC National Accelerator Laboratory/Kavli Institute for Particle Astrophysics and Cosmology, Menlo Park, CA 94025, USA – sequence: 3 givenname: Georgia surname: Karagiorgi fullname: Karagiorgi, Georgia organization: Department of Physics, Columbia University, New York, NY 10027, USA – sequence: 4 givenname: Hirokazu surname: Odaka fullname: Odaka, Hirokazu organization: Department of Physics, University of Tokyo, Tokyo 113-0033, Japan
BackLink	https://www.osti.gov/biblio/1544454$$D View this record in Osti.gov
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Snippet	GRAMS (Gamma-Ray and AntiMatter Survey) is a novel project that can simultaneously target both astrophysical observations with MeV gamma rays and an indirect...
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SubjectTerms	AMS-02 Antideuterons Antiheliums Antimatter Antiprotons Dark matter Fermi GCE GAPS GRAMS LArTPC MeV gamma rays
Title	Dual MeV gamma-ray and dark matter observatory - GRAMS Project
URI	https://dx.doi.org/10.1016/j.astropartphys.2019.07.002 https://www.osti.gov/biblio/1544454
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