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Relativistic heavy-ion collisions

The field of relativistic heavy-ion collisions is introduced to the high-energy physics students with no prior knowledge in this area. The emphasis is on the two most important observables, namely the azimuthal collective flow and jet quenching, and on the role fluid dynamics plays in the interpreta...

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Autor principal: Bhalerao, Rajeev S.
Lenguaje:eng
Publicado: 2014
Materias:
Acceso en línea:https://dx.doi.org/10.5170/CERN-2014-001.219
http://cds.cern.ch/record/1695331
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author Bhalerao, Rajeev S.
author_facet Bhalerao, Rajeev S.
author_sort Bhalerao, Rajeev S.
collection CERN
description The field of relativistic heavy-ion collisions is introduced to the high-energy physics students with no prior knowledge in this area. The emphasis is on the two most important observables, namely the azimuthal collective flow and jet quenching, and on the role fluid dynamics plays in the interpretation of the data. Other important observables described briefly are constituent quark number scaling, ratios of particle abundances, strangeness enhancement, and sequential melting of heavy quarkonia. Comparison is made of some of the basic heavy-ion results obtained at LHC with those obtained at RHIC. Initial findings at LHC which seem to be in apparent conflict with the accumulated RHIC data are highlighted.
id cern-1695331
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2014
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spelling cern-16953312022-08-10T20:53:45Zdoi:10.5170/CERN-2014-001.219http://cds.cern.ch/record/1695331engBhalerao, Rajeev S.Relativistic heavy-ion collisionsNuclear Physics - TheoryThe field of relativistic heavy-ion collisions is introduced to the high-energy physics students with no prior knowledge in this area. The emphasis is on the two most important observables, namely the azimuthal collective flow and jet quenching, and on the role fluid dynamics plays in the interpretation of the data. Other important observables described briefly are constituent quark number scaling, ratios of particle abundances, strangeness enhancement, and sequential melting of heavy quarkonia. Comparison is made of some of the basic heavy-ion results obtained at LHC with those obtained at RHIC. Initial findings at LHC which seem to be in apparent conflict with the accumulated RHIC data are highlighted.The field of relativistic heavy-ion collisions is introduced to the high-energy physics students with no prior knowledge in this area. The emphasis is on the two most important observables, namely the azimuthal collective flow and jet quenching, and on the role fluid dynamics plays in the interpretation of the data. Other important observables described briefly are constituent quark number scaling, ratios of particle abundances, strangeness enhancement, and sequential melting of heavy quarkonia. Comparison is made of some of the basic heavy-ion results obtained at LHC with those obtained at RHIC. Initial findings at LHC which seem to be in apparent conflict with the accumulated RHIC data are highlighted.arXiv:1404.3294TIFR-TH-14-11oai:cds.cern.ch:16953312014-04-12
spellingShingle Nuclear Physics - Theory
Bhalerao, Rajeev S.
Relativistic heavy-ion collisions
title Relativistic heavy-ion collisions
title_full Relativistic heavy-ion collisions
title_fullStr Relativistic heavy-ion collisions
title_full_unstemmed Relativistic heavy-ion collisions
title_short Relativistic heavy-ion collisions
title_sort relativistic heavy-ion collisions
topic Nuclear Physics - Theory
url https://dx.doi.org/10.5170/CERN-2014-001.219
http://cds.cern.ch/record/1695331
work_keys_str_mv AT bhaleraorajeevs relativisticheavyioncollisions