A Feasibility Study of Hyperon and Hypernuclei Reconstruction at NICA with BM@N Detector

Suvarieva, D.; Ilieva, M.; Kapishin, Mikhail; Kolesnikov, V.; Vasendina, V.; Zinchenko, A.

doi:10.1088/1742-6596/668/1/012121

Cited by 6 publications

(3 citation statements)

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“…The maximum probability of hypernucleus production is predicted for energies of √ s NN = 4−5 GeV, that is close to the Nuclotron energy range and accessible at the NICA/MPD experiment. In general, the research program of the BM@N experiment aims to study heavy ion collisions at the Nuclotron including the following topics: exploration of the reaction dynamics and the equation of state (EoS) of nuclear matter, study of in-medium properties of hadrons,, production of (multi)strange hyperons in the vicinity of the threshold and searches for hypernuclei [6][7][8]. Nuclotron-based Ion Collider fAcility (NICA) is presently under the construction [18,19].…”

Section: Nuclotron and Nica Heavy-ion Physics Programmentioning

confidence: 99%

Heavy Ion BM@N and MPD Experiments at NICA

Kapishin

2020

Proceedings of 13th International Conference on Nucleus-Nucleus Collisions

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The NICA (Nuclotron-based Ion Collider fAcility) project is under realization at the Joint Institute for Nuclear Research (JINR, Dubna). The main goal of the project is an experimental study of hot and dense strongly interacting matter in heavy ion (up to Au) collisions at center-of-mass energies up to 11 GeV per nucleon. The physics program will be performed at two experiments, BM@N (Baryonic Matter at Nuclotron) at beams extracted from the Nuclotron, and MPD (Multi-Purpose Detector) at the NICA collider. The aim of the BM@N experiment is to study interactions of relativistic heavy ion beams with fixed targets. The scientific program comprises studies of nuclear matter in the intermediate energy range between experiments at the SIS-18 and NICA/FAIR facilities. The BM@N experiment has recorded first experimental data in the carbon, argon and krypton beams of kinetic energy ranging from 2.3 to 4.5 GeV per nucleon. The first measurement of short range correlations of nucleons in carbon nucleus was performed in inverse kinematics with the carbon beam and liquid hydrogen target. The MPD detector is under construction to study hot and baryon rich QCD matter in heavy ion collisions at the NICA collider in the energy range √ s NN = 4 − 11 GeV. Physics program includes the study of collective phenomena, Λ polarization, dilepton, hyperon and hypernuclei production under extreme conditions of highest baryonic density.

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Section: Nuclotron and Nica Heavy-ion Physics Programmentioning

confidence: 99%

Heavy Ion BM@N and MPD Experiments at NICA

Kapishin

2020

Proceedings of 13th International Conference on Nucleus-Nucleus Collisions

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“…The maximum probability of hypernucleus production is predicted for energies of √ s NN = 4 ÷ 5 GeV, that is close to the Nuclotron energy range and accessible at the NICA/MPD experiment. In general, the research program of the BM@N experiment aims to study heavy ion collisions at the Nuclotron including the following topics: exploration of the reaction dynamics and the equation of state (EoS) of nuclear matter, study of in-medium properties of hadrons" production of (multi)strange hyperons in the vicinity of the threshold and searches for hypernuclei [6,7,8].…”

Section: Nuclotron and Nica Heavy-ion Physics Programmentioning

confidence: 99%

Studies of baryonic matter in the BM@N and MPD experiments at Nuclotron/NICA

Kapishin¹

2019

Proceedings of Corfu Summer Institute 2018 "School and Workshops on Elementary Particle Physics and Gravity" — PoS(CORFU2018)

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The NICA (Nuclotron-based Ion Collider fAcility) project is under realization at the Joint Institute for Nuclear Research (JINR, Dubna). The main goal of the project is an experimental study of hot and dense strongly interacting matter in heavy ion (up to Au) collisions at center-of-mass energies up to 11 GeV per nucleon. The physics program will be performed at two experiments, BM@N (Baryonic Matter at Nuclotron) at beams extracted from the Nuclotron, and MPD (Multi-Purpose Detector) at the NICA collider. The aim of the BM@N experiment is to study interactions of relativistic heavy ion beams with fixed targets. The scientific program comprises studies of nuclear matter in the intermediate energy range between experiments at the SIS and NICA/FAIR facilities. The BM@N experiment has recorded first experimental data in the carbon, argon and krypton beams of kinetic energy per nucleon ranging from 2.3 to 4.5 GeV per nucleon. The first measurement of short range correlations of nucleons in carbon nucleus was performed in inverse kinematics with the carbon beam and liquid hydrogen target. The MPD detector is under construction to study hot and baryon rich QCD matter in heavy ion collisions at the NICA collider in the energy range √ s NN = 4 ÷ 11 GeV. Physics program includes the study of collective phenomena, Λ polarization, dilepton, hyperon and hypernuclei production under extreme conditions of highest baryonic density.

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“…Figure 6 presents the momentum resolution and the vertex impact parameter resolution of charged particles reconstructed in the GEM tracker. The results are presented for the magnetic field in the center of the magnet of 0.44 T. The simulation results indicate that the proposed set-up has a reasonable reconstruction capability for strange hyperons produced in high multiplicity central Au+Au collisions [23]. The expected statistics is sufficient to perform measurements of strange hyperon and hyper-nuclei production yields and ratios, transverse momentum spectra, rapidity and angular distributions [24,25].…”

Section: Bm@n Simulations and Feasibility Studymentioning

confidence: 99%