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Probing light dark matter with positron beams at NA64

Yu. M. Andreev, A. Antonov, D. Banerjee, B. Banto Oberhauser, J. Bernhard, P. Bisio, M. Bondí, A. Celentano, N. Charitonidis, D. Cooke, P. Crivelli, E. Depero, A. Dermenev, S.V. Donskov, R. R. Dusaev, T. Enik, V. Frolov, A. Gardikiotis, S. Gninenko, M. Hösgen, Vassili Kachanov, Y. Kambar, A. Karneyeu, G. Kekelidze, B. Ketzer, D. Kirpichnikov, M. Kirsanov, V. N. Kolosov, S. V. Gertsenberger, S. Girod, E. A. Kasianova, V. A. Kramarenko, L. Kravchuk, Nikolai Krasnikov, S. Kuleshov, Valery E. Lyubovitskij, V. Lysan, A. Marini, L. Marsicano, V. Matveev, R. Mena Fredes, R. Mena Yanssen, L. Molina Bueno, M. Mongillo, D. V. Peshekhonov, V. A. Polyakov, B. Radics, K. Salamatin, V. D. Samoylenko, H. Sieber, D. Shchukin, Orlando Javier Soto Sandoval, V. O. Tikhomirov, I. Tlisova, A. Toropin, M. Tuzi, P. A. Ulloa Poblete, P. Volkov, V. Yu. Volkov, I. V. Voronchikhin, J. A. Zamora Saa, N. Zhigareva

2024Physical review. D/Physical review. D.13 citationsDOIOpen Access PDF

Abstract

We present the results of a missing-energy search for light dark matter which has a new interaction with ordinary matter transmitted by a vector boson, called dark photon <a:math xmlns:a="http://www.w3.org/1998/Math/MathML" display="inline"><a:msup><a:mi>A</a:mi><a:mo>′</a:mo></a:msup></a:math>. For the first time, this search is performed with a positron beam by using the significantly enhanced production of <c:math xmlns:c="http://www.w3.org/1998/Math/MathML" display="inline"><c:msup><c:mi>A</c:mi><c:mo>′</c:mo></c:msup></c:math> in the resonant annihilation of positrons with atomic electrons of the target nuclei, followed by the invisible decay of <e:math xmlns:e="http://www.w3.org/1998/Math/MathML" display="inline"><e:msup><e:mi>A</e:mi><e:mo>′</e:mo></e:msup></e:math> into dark matter. No events were found in the signal region with <g:math xmlns:g="http://www.w3.org/1998/Math/MathML" display="inline"><g:mrow><g:mo stretchy="false">(</g:mo><g:mn>10.1</g:mn><g:mo>±</g:mo><g:mn>0.1</g:mn><g:mo stretchy="false">)</g:mo><g:mo>×</g:mo><g:msup><g:mrow><g:mn>10</g:mn></g:mrow><g:mrow><g:mn>9</g:mn></g:mrow></g:msup></g:mrow></g:math> positrons on target with 100 GeV energy. This allowed us to set new exclusion limits that, relative to the collected statistics, prove the power of this experimental technique. This measurement is a crucial first step toward a future exploration program with positron beams, whose estimated sensitivity is here presented. Published by the American Physical Society 2024

Topics & Concepts

PhysicsPositronDark matterNuclear physicsAstrophysicsElectronDark Matter and Cosmic PhenomenaParticle physics theoretical and experimental studiesParticle Detector Development and Performance
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