Experimental Results on Charge Fluctuations in Heavy-Ion Collisions

We present a subset of experimental results on charge fluctuation from the heavy-ion collisions to search for phase transition and location of critical point in the QCD phase diagram. Measurements from the heavy-ion experiments at the SPS and RHIC energies observe that total charge fluctuations incr...

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Published in	Advances in High Energy Physics Vol. 2017; no. 2017; pp. 1 - 14-011
Main Authors	Pant, L. M., Netrakanti, Pawan Kumar, Garg, Prakhar, Mishra, D. K., Mohanty, A. K.
Format	Journal Article
Language	English
Published	Cairo, Egypt Hindawi Limiteds 01.01.2017 Hindawi Publishing Corporation Hindawi John Wiley & Sons, Inc Hindawi Limited
Subjects	Charged particles Collisions (Nuclear physics) Critical phenomena Experiments Phase transitions Physics Quarks Studies
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Abstract	We present a subset of experimental results on charge fluctuation from the heavy-ion collisions to search for phase transition and location of critical point in the QCD phase diagram. Measurements from the heavy-ion experiments at the SPS and RHIC energies observe that total charge fluctuations increase from central to peripheral collisions. The net-charge fluctuations in terms of dynamical fluctuation measure ν(+-,dyn) are studied as a function of collision energy (sNN) and centrality of the collisions. The product of ν(+-,dyn) and 〈Nch〉 shows a monotonic decrease with collision energies, which indicates that at LHC energy the fluctuations have their origin in the QGP phase. The fluctuations in terms of higher moments of net-proton, net-electric charge, and net-kaon have been measured for various sNN. Deviations are observed in both Sσ and κσ2 for net-proton multiplicity distributions from the Skellam and hadron resonance gas model for sNN<39 GeV. Higher moment results of the net-electric charge and net-kaon do not observe any significant nonmonotonic behavior as a function of collision energy. We also discuss the extraction of the freeze-out parameters using particle ratios and experimentally measured higher moments of net-charge fluctuations. The extracted freeze-out parameters from experimentally measured moments and lattice calculations are found to be in agreement with the results obtained from the fit of particle ratios to the thermal model calculations.
AbstractList	We present a subset of experimental results on charge fluctuation from the heavy-ion collisions to search for phase transition and location of critical point in the QCD phase diagram. Measurements from the heavy-ion experiments at the SPS and RHIC energies observe that total charge fluctuations increase from central to peripheral collisions. The net-charge fluctuations in terms of dynamical fluctuation measure [v.sub.(+-,dyn)] are studied as a function of collision energy ([square root of [s.sub.NN]]) and centrality of the collisions. The product of [v.sub.(+-,dyn)] and <[N.sub.ch]> shows a monotonic decrease with collision energies, which indicates that at LHC energy the fluctuations have their origin in the QGP phase. The fluctuations in terms of higher moments of net-proton, net- electric charge, and net-kaon have been measured for various [square root of [s.sub.NN]]. Deviations are observed in both So and [lambda][[sigma].sup.2] for net-proton multiplicity distributions from the Skellam and hadron resonance gas model for [square root of [s.sub.NN]] < 39 GeV. Higher moment results of the net-electric charge and net-kaon do not observe any significant nonmonotonic behavior as a function of collision energy. We also discuss the extraction of the freeze-out parameters using particle ratios and experimentally measured higher moments of net- charge fluctuations. The extracted freeze-out parameters from experimentally measured moments and lattice calculations are found to be in agreement with the results obtained from the fit of particle ratios to the thermal model calculations. [ProQuest: [...] denotes non US-ASCII text; see PDF] We present a subset of experimental results on charge fluctuation from the heavy-ion collisions to search for phase transition and location of critical point in the QCD phase diagram. Measurements from the heavy-ion experiments at the SPS and RHIC energies observe that total charge fluctuations increase from central to peripheral collisions. The net-charge fluctuations in terms of dynamical fluctuation measure [subscript]ν(+-,dyn)[/subscript] are studied as a function of collision energy ([subscript]sNN[/subscript] ) and centrality of the collisions. The product of [subscript]ν(+-,dyn)[/subscript] and [...][subscript]Nch[/subscript] [...] shows a monotonic decrease with collision energies, which indicates that at LHC energy the fluctuations have their origin in the QGP phase. The fluctuations in terms of higher moments of net-proton, net-electric charge, and net-kaon have been measured for various [subscript]sNN[/subscript] . Deviations are observed in both Sσ and κ[superscript]σ2[/superscript] for net-proton multiplicity distributions from the Skellam and hadron resonance gas model for [subscript]sNN[/subscript] <39 GeV. Higher moment results of the net-electric charge and net-kaon do not observe any significant nonmonotonic behavior as a function of collision energy. We also discuss the extraction of the freeze-out parameters using particle ratios and experimentally measured higher moments of net-charge fluctuations. The extracted freeze-out parameters from experimentally measured moments and lattice calculations are found to be in agreement with the results obtained from the fit of particle ratios to the thermal model calculations. We present a subset of experimental results on charge fluctuation from the heavy-ion collisions to search for phase transition and location of critical point in the QCD phase diagram. Measurements from the heavy-ion experiments at the SPS and RHIC energies observe that total charge fluctuations increase from central to peripheral collisions. The net-charge fluctuations in terms of dynamical fluctuation measure ν(+-,dyn) are studied as a function of collision energy (sNN) and centrality of the collisions. The product of ν(+-,dyn) and 〈Nch〉 shows a monotonic decrease with collision energies, which indicates that at LHC energy the fluctuations have their origin in the QGP phase. The fluctuations in terms of higher moments of net-proton, net-electric charge, and net-kaon have been measured for various sNN. Deviations are observed in both Sσ and κσ2 for net-proton multiplicity distributions from the Skellam and hadron resonance gas model for sNN<39 GeV. Higher moment results of the net-electric charge and net-kaon do not observe any significant nonmonotonic behavior as a function of collision energy. We also discuss the extraction of the freeze-out parameters using particle ratios and experimentally measured higher moments of net-charge fluctuations. The extracted freeze-out parameters from experimentally measured moments and lattice calculations are found to be in agreement with the results obtained from the fit of particle ratios to the thermal model calculations. We present a subset of experimental results on charge fluctuation from the heavy-ion collisions to search for phase transition and location of critical point in the QCD phase diagram. Measurements from the heavy-ion experiments at the SPS and RHIC energies observe that total charge fluctuations increase from central to peripheral collisions. The net-charge fluctuations in terms of dynamical fluctuation measure ν ( + - , d y n ) are studied as a function of collision energy ( s N N ) and centrality of the collisions. The product of ν ( + - , d y n ) and 〈 N c h 〉 shows a monotonic decrease with collision energies, which indicates that at LHC energy the fluctuations have their origin in the QGP phase. The fluctuations in terms of higher moments of net-proton, net-electric charge, and net-kaon have been measured for various s N N . Deviations are observed in both S σ and κ σ 2 for net-proton multiplicity distributions from the Skellam and hadron resonance gas model for s N N < 39 GeV. Higher moment results of the net-electric charge and net-kaon do not observe any significant nonmonotonic behavior as a function of collision energy. We also discuss the extraction of the freeze-out parameters using particle ratios and experimentally measured higher moments of net-charge fluctuations. The extracted freeze-out parameters from experimentally measured moments and lattice calculations are found to be in agreement with the results obtained from the fit of particle ratios to the thermal model calculations.
Audience	Academic
Author	A. K. Mohanty P. K. Netrakanti D. K. Mishra L. M. Pant P. Garg
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Copyright	Copyright © 2017 D. K. Mishra et al. COPYRIGHT 2017 John Wiley & Sons, Inc. Copyright © 2017 D. K. Mishra et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. The publication of this article was funded by SCOAP3 .
Copyright_xml	– notice: Copyright © 2017 D. K. Mishra et al. – notice: COPYRIGHT 2017 John Wiley & Sons, Inc. – notice: Copyright © 2017 D. K. Mishra et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. The publication of this article was funded by SCOAP3 .
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Snippet	We present a subset of experimental results on charge fluctuation from the heavy-ion collisions to search for phase transition and location of critical point... [ProQuest: [...] denotes non US-ASCII text; see PDF] We present a subset of experimental results on charge fluctuation from the heavy-ion collisions to search...
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SubjectTerms	Charged particles Collisions (Nuclear physics) Critical phenomena Experiments Phase transitions Physics Quarks Studies
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Title	Experimental Results on Charge Fluctuations in Heavy-Ion Collisions
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