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Prospects for Strangeness Production in pp Collisions at LHC

Prospects for strangeness production in pp collisions at the Large Hadron Collider (LHC) are discussed within the statistical model. Firstly, the system size and the energy dependence of the model parameters are extracted from existing data and extrapolated to LHC energy. Particular attention is pai...

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Detalles Bibliográficos
Autores principales: Kraus, I., Cleymans, J., Oeschler, H., Redlich, K.
Lenguaje:eng
Publicado: 2010
Materias:
Acceso en línea:https://dx.doi.org/10.1088/0954-3899/37/9/094021
http://cds.cern.ch/record/1235631
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author Kraus, I.
Cleymans, J.
Oeschler, H.
Redlich, K.
author_facet Kraus, I.
Cleymans, J.
Oeschler, H.
Redlich, K.
author_sort Kraus, I.
collection CERN
description Prospects for strangeness production in pp collisions at the Large Hadron Collider (LHC) are discussed within the statistical model. Firstly, the system size and the energy dependence of the model parameters are extracted from existing data and extrapolated to LHC energy. Particular attention is paid to demonstrate that the chemical decoupling temperature is independent of the system size. In the energy regime investigated so far, strangeness production in pp interactions is strongly influenced by the canonical suppression effects. At LHC energies, this influence might be reduced. Particle ratios with particular sensitivity to canonical effects are indicated. Secondly, the relation between the strangeness production and the charged-particle multiplicity in pp interactions is investigated. In this context the multiplicity dependence studied at Tevatron is of particular interest. There, the trend in relative strangeness production known from centrality dependent heavy-ion collisions is not seen in multiplicity selected pp interactions. However, the conclusion from the Tevatron measurements is based on rather limited data samples with low statistics and number of observables. We argue, that there is an absolute need at LHC to measure strangeness production in events with different multiplicities to possibly disentangle relations and differences between particle production in pp and heavy-ion collisions.
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spelling cern-12356312021-05-03T20:26:33Zdoi:10.1088/0954-3899/37/9/094021http://cds.cern.ch/record/1235631engKraus, I.Cleymans, J.Oeschler, H.Redlich, K.Prospects for Strangeness Production in pp Collisions at LHCParticle Physics - PhenomenologyProspects for strangeness production in pp collisions at the Large Hadron Collider (LHC) are discussed within the statistical model. Firstly, the system size and the energy dependence of the model parameters are extracted from existing data and extrapolated to LHC energy. Particular attention is paid to demonstrate that the chemical decoupling temperature is independent of the system size. In the energy regime investigated so far, strangeness production in pp interactions is strongly influenced by the canonical suppression effects. At LHC energies, this influence might be reduced. Particle ratios with particular sensitivity to canonical effects are indicated. Secondly, the relation between the strangeness production and the charged-particle multiplicity in pp interactions is investigated. In this context the multiplicity dependence studied at Tevatron is of particular interest. There, the trend in relative strangeness production known from centrality dependent heavy-ion collisions is not seen in multiplicity selected pp interactions. However, the conclusion from the Tevatron measurements is based on rather limited data samples with low statistics and number of observables. We argue, that there is an absolute need at LHC to measure strangeness production in events with different multiplicities to possibly disentangle relations and differences between particle production in pp and heavy-ion collisions.Prospects for strangeness production in pp collisions at the Large Hadron Collider (LHC) are discussed within the statistical model. Firstly, the system size and the energy dependence of the model parameters are extracted from existing data and extrapolated to LHC energy. Particular attention is paid to demonstrate that the chemical decoupling temperature is independent of the system size. In the energy regime investigated so far, strangeness production in pp interactions is strongly influenced by the canonical suppression effects. At LHC energies, this influence might be reduced. Particle ratios with particular sensitivity to canonical effects are indicated. Secondly, the relation between the strangeness production and the charged-particle multiplicity in pp interactions is investigated. In this context the multiplicity dependence studied at Tevatron is of particular interest. There, the trend in relative strangeness production known from centrality dependent heavy-ion collisions is not seen in multiplicity selected pp interactions. However, the conclusion from the Tevatron measurements is based on rather limited data samples with low statistics and number of observables. We argue, that there is an absolute need at LHC to measure strangeness production in events with different multiplicities to possibly disentangle relations and differences between particle production in pp and heavy-ion collisions.arXiv:1001.4359oai:cds.cern.ch:12356312010-01-26
spellingShingle Particle Physics - Phenomenology
Kraus, I.
Cleymans, J.
Oeschler, H.
Redlich, K.
Prospects for Strangeness Production in pp Collisions at LHC
title Prospects for Strangeness Production in pp Collisions at LHC
title_full Prospects for Strangeness Production in pp Collisions at LHC
title_fullStr Prospects for Strangeness Production in pp Collisions at LHC
title_full_unstemmed Prospects for Strangeness Production in pp Collisions at LHC
title_short Prospects for Strangeness Production in pp Collisions at LHC
title_sort prospects for strangeness production in pp collisions at lhc
topic Particle Physics - Phenomenology
url https://dx.doi.org/10.1088/0954-3899/37/9/094021
http://cds.cern.ch/record/1235631
work_keys_str_mv AT krausi prospectsforstrangenessproductioninppcollisionsatlhc
AT cleymansj prospectsforstrangenessproductioninppcollisionsatlhc
AT oeschlerh prospectsforstrangenessproductioninppcollisionsatlhc
AT redlichk prospectsforstrangenessproductioninppcollisionsatlhc