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UNIVERSITY OF BUCHAREST
FACULTY OF PHYSICS Guest
2024-11-23 17:53 |
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Conference: Bucharest University Faculty of Physics 2017 Meeting
Section: Nuclear and Elementary Particles Physics
Title:
Possible new insights on the dynamics or relativistic nuclear collisions from CBM Experiment from FAIR-GSI
Authors:
Alexandru JIPA(1), Călin BEȘLIU(1), Ionel LAZANU(1), Oana RISTEA(1), Marius CALIN(1), Cătălin RISTEA(2,1), Dan ARGINTARU(3), Valerica BABAN(3), Tiberiu EȘANU(4,1), Nicolae George ȚUȚURAȘ(1), Murat ABLAI(1), Alexandru ENE(1), Liviu NIȚĂ(1), Tănase ALIONTE(1), Daniel STOIAN(1), Ioan GROSSU(1), Dragoș NICHITA(1), Teodora PETRUSE(1), Robert IONESCU(1)
*
Affiliation:
(1) University of Bucharest, Faculty of Physics
(2) Institute of Space Sciences Bucharest-Magurele
(3) Maritime University of Constantza
(4) National Institute of Physics and Nuclear Engineering „Horia Hulubei” Bucharest-Magurele
E-mail
jipa@brahms.fizica.unibuc.ro
Keywords:
relativistic nuclear collisions, dynamics, bulk quantities, nuclear matter, phase transitions
Abstract:
The scientific objectives of the Compressed Baryonic Matter (CBM) Collaboration [1] involve many efforts in deep knowledge of the behaviour of the highly excited and dense nuclear matter formed in nucleus-nucleus collisions at relativistic energies. This work presents the new results obtained by the Relativistic Nuclear Physics group of the Research Center Nuclear Matter in Extreme Conditions. Interesting behaviours of the bulk physical quantities and their dependencies on energy and collision centrality are reported. Searches for plateau type behaviours of some thermodynamic quantities are reported, too. Connections among correlations, fluctuations and hydrodynamic flow are considered in this work. Some connections with possible final form of the experimental set-up, as well as with the proposed mini-CBM are discussed. As a final conclusion, the work proposed possible energy ranges for different type of nuclear matter phases, in the energy range of FAIR-GSI.
References:
[1]. CBM Coll. - EPJA 2017
[2]. O.Ristea et al - EPJA 2017
[3]. D.Argintaru et al - EPJA 2017
Acknowledgement:
Thanks to Ministry of Research and Innovation and Institute of Atomic Physics for Grant F09/16.IX.206 (RO-FAIR)
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