Embedding Procedure as an Instrument Used for Optimal Reconstruction of Particle Trajectories Produced by the Λ0 Decay Products

Batyuk, P.; Gabdrakhmanov, I.; Merts, S.

doi:10.1134/S1063779622020162

Embedding Procedure as an Instrument Used for Optimal Reconstruction of Particle Trajectories Produced by the Λ⁰ Decay Products

Published: 12 May 2022

Volume 53, pages 149–153, (2022)
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P. Batyuk¹,
I. Gabdrakhmanov¹ &
S. Merts¹

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Abstract

BM@N is a really working fixed target experiment considered as a first step towards a fulfil of realization of physics program at the NICA accelerator complex (Dubna, Russia). Estimation of yields of strange particles in the BM@N energy range is considered as a point of utmost importance due to lack of measurements. The enhanced yield of strange particles in this energy range could be attributed to onset of deconfinement. To cover this aspect of the BM@N physics program, one requires to have an appropriate tracking procedure and robust algorithms of reconstruction of secondary vertices produced by strange particles decays. The current work is dedicated to development of embedding algorithm for \({{\Lambda }^{0}}\) decay products with the subsequent quality assurance of the procedure presented.

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ACKNOWLEDGMENTS

The authors thank N. Kutovskiy and his team [4] for using the well equipped JINR cloud infrastructure to perform the calculations presented in the work.

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Joint Institute for Nuclear Research, Dubna, Russia
P. Batyuk, I. Gabdrakhmanov & S. Merts

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P. Batyuk
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I. Gabdrakhmanov
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S. Merts
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Correspondence to P. Batyuk.

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Batyuk, P., Gabdrakhmanov, I. & Merts, S. Embedding Procedure as an Instrument Used for Optimal Reconstruction of Particle Trajectories Produced by the Λ⁰ Decay Products. Phys. Part. Nuclei 53, 149–153 (2022). https://doi.org/10.1134/S1063779622020162

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Received: 11 March 2021
Revised: 08 July 2021
Accepted: 18 July 2021
Published: 12 May 2022
Issue Date: April 2022
DOI: https://doi.org/10.1134/S1063779622020162

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