Prospects on searches for baryonic Dark Matter produced in b-hadron decays at LHCb

A model that can simultaneously explain Dark Matter relic density and the apparent matter anti-matter imbalance of the universe has been recently proposed. The model requires b -hadron branching fractions to Dark Matter at the per mille level. The b -hadrons decay to a dark sector baryon, ψ DS , whi...

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Published in	The European physical journal. C, Particles and fields Vol. 81; no. 11; pp. 1 - 9
Main Authors	Brea Rodríguez, Alexandre, Chobanova, Veronika, Cid Vidal, Xabier, López Soliño, Saúl, Martínez Santos, Diego, Mombächer, Titus, Prouvé, Claire, Rodríguez Fernández, Emilio Xosé, Vázquez Sierra, Carlos
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.11.2021 Springer Nature B.V SpringerOpen
Subjects	Astronomy Astrophysics and Cosmology Baryons Dark matter Elementary Particles Hadrons Heavy Ions Large Hadron Collider Measurement Science and Instrumentation Novel Ideas for the high luminosity phase of the LHC Nuclear Energy Nuclear Physics Physics Physics and Astronomy Quantum Field Theories Quantum Field Theory Regular Article - Experimental Physics String Theory Topology
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Abstract	A model that can simultaneously explain Dark Matter relic density and the apparent matter anti-matter imbalance of the universe has been recently proposed. The model requires b -hadron branching fractions to Dark Matter at the per mille level. The b -hadrons decay to a dark sector baryon, ψ DS , which has a mass in the region 940 MeV / c 2 ≤ m ψ DS ≤ 4430 MeV / c 2 . In this paper, we discuss the sensitivity of the LHCb experiment to search for this dark baryon, covering different types of topology and giving prospects for Runs 3 and 4 of the LHC, as well as for the proposed Upgrade II. We show that the LHCb experiment can cover the entire mass range of the hypothetical dark baryon.
AbstractList	Abstract A model that can simultaneously explain Dark Matter relic density and the apparent matter anti-matter imbalance of the universe has been recently proposed. The model requires b-hadron branching fractions to Dark Matter at the per mille level. The b-hadrons decay to a dark sector baryon, $$\psi _{\mathrm{DS}}$$ ψ DS , which has a mass in the region $$940 ~\mathrm{MeV}/c^2\le m_{\psi _{\mathrm{DS}}}\le 4430~\mathrm{MeV}/c^2$$ 940 MeV / c 2 ≤ m ψ DS ≤ 4430 MeV / c 2 . In this paper, we discuss the sensitivity of the LHCb experiment to search for this dark baryon, covering different types of topology and giving prospects for Runs 3 and 4 of the LHC, as well as for the proposed Upgrade II. We show that the LHCb experiment can cover the entire mass range of the hypothetical dark baryon. A model that can simultaneously explain Dark Matter relic density and the apparent matter anti-matter imbalance of the universe has been recently proposed. The model requires b-hadron branching fractions to Dark Matter at the per mille level. The b-hadrons decay to a dark sector baryon, ψDS, which has a mass in the region 940MeV/c2≤mψDS≤4430MeV/c2. In this paper, we discuss the sensitivity of the LHCb experiment to search for this dark baryon, covering different types of topology and giving prospects for Runs 3 and 4 of the LHC, as well as for the proposed Upgrade II. We show that the LHCb experiment can cover the entire mass range of the hypothetical dark baryon. A model that can simultaneously explain Dark Matter relic density and the apparent matter anti-matter imbalance of the universe has been recently proposed. The model requires b -hadron branching fractions to Dark Matter at the per mille level. The b -hadrons decay to a dark sector baryon, ψ DS , which has a mass in the region 940 MeV / c 2 ≤ m ψ DS ≤ 4430 MeV / c 2 . In this paper, we discuss the sensitivity of the LHCb experiment to search for this dark baryon, covering different types of topology and giving prospects for Runs 3 and 4 of the LHC, as well as for the proposed Upgrade II. We show that the LHCb experiment can cover the entire mass range of the hypothetical dark baryon.
Author	Cid Vidal, Xabier López Soliño, Saúl Brea Rodríguez, Alexandre Martínez Santos, Diego Chobanova, Veronika Prouvé, Claire Mombächer, Titus Rodríguez Fernández, Emilio Xosé Vázquez Sierra, Carlos
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Snippet	A model that can simultaneously explain Dark Matter relic density and the apparent matter anti-matter imbalance of the universe has been recently proposed. The... Abstract A model that can simultaneously explain Dark Matter relic density and the apparent matter anti-matter imbalance of the universe has been recently...
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Title	Prospects on searches for baryonic Dark Matter produced in b-hadron decays at LHCb
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