Feng-lan Shao scite author profile

We use two available methods, the Duhem-Gibbs relation and the entropy formula in terms of particle phase space distributions, to calculate the entropy in a quark combination model. The entropy of the system extracted from the Duhem-Gibbs relation is found to increase in hadronization if the average temperature of the hadronic phase is lower than that of the quark phase. The increase of the entropy can also be confirmed from the entropy formula if the volume of the hadronic phase is larger than 2.5-3.0 times that of the quark phase. So whether the entropy increases or decreases during combination depends on the temperature before and after combination and on how much expansion the system undergoes during combination. The current study provides an example to shed light on the entropy issue in the quark combination model. The quark combination model [1, 2] (QCM) or its variants such as the quark recombination or coalescence model are used to describe multi-hadron processes in high energy electron-positron, hadron-hadron and nucleusnucleus collisions. Recently they are successful in explaining the data at Relativistic Heavy Ion Collider (RHIC), which showed that the combination is more preferable than the fragmentation for the hadronization mechanism in intermediate transverse momentum region in heavy ion collisions at high energies [3][4][5]. The basic idea of the QCM is that hadrons are combined from quarks and anti-quarks, i.e. two quarks merge into a meson (a 2-to-1 process) and three quarks into a baryon (a 3-to-1 process). One of the most frequently asked questions about the validity of the QCM is: does the entropy decrease in such 2-to-1 and 3-to-1 processes? The question arises naturally from the common sense that the entropy is normally reduced in a particle number decreasing process. The entropy problem is essential to nucleusnucleus collisions since the issue of the entropy production is closely related to thermalization and has been the concern of the researchers for many years. There have been previous attempts or arguments about the entropy in the QCM-like models in literature [6][7][8][9], but no systematic investigation has yet been made. In this paper we will address the entropy problem in the course of the quark combination in heavy ion collisions. As an example we will use a specific version of the QCM which is developed by the Shandong group [10][11][12][13]. The advantage of the Shandong QCM is its exclusive nature and simplicity, i.e. it can give all hadrons in an event. Considering that the entropy can be regarded as a measure of degrees of freedom, the exclusive nature of Shandong QCM is suitable and applicable to the entropy problem.The building blocks for the QCM are constituent quarks and anti-quarks of the light flavors u,d and s with the momentum distributions f i (p) ≡ f i (y, p T ) [14][15][16]. All hadrons come out with fixed momenta from combination of their constituent quarks. Note that our QCM (or any of QCM-like models) does not deal with how the constituent quarks acquire masses...

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Bs→Ds(3040)form factors andBsdecays into
Li
¹
,
Shao
²
,
Wang
³

2010
Phys. Rev. D

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Hadron yield correlation in quark combination models in high-energyAAcollisions

et al. 2012

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We study the hadron yield correlation in the combination models in high-energy heavy-ion collisions. We derive the relationship between the average yields of different hadrons produced in the combination of a system consisting of equal numbers of quarks and antiquarks. We present the results for the directly produced hadrons as well as those for the final hadrons including the strong and electromagnetic decay contributions. We also study the net quark influence by considering the case when the number of quarks is larger than that of antiquarks. We make comparison with the data wherever possible.

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Hadron production by quark combination in centralPb+Pbcollisions atsNN=
Shao
¹
,
Shao
²
,
Xie
³

2009
Phys. Rev. C
41
3
50
0
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Quark number scaling of hadronic p T spectra and constituent quark degree of freedom in p –Pb collisions atsNN=5.02TeV

et al. 2017

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We show that the experimental data of p T spectra of identified hadrons released recently by ALICE collaboration for p-Pb collisions at √ s NN = 5.02 TeV exhibit a distinct universal behavior -the quark number scaling.We further show that the scaling is a direct consequence of quark (re-)combination mechanism of hadronization and can be regarded as a strong indication of the existence of the underlying source with constituent quark degree of freedom for the production of hadrons in p-Pb collisions at such high energies. We make also predictions for production of other hadrons.

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Feng-lan Shao

Entropy puzzle and the quark combination model

Bs→Ds(3040)form factors andBsdecays into
Li
¹
,
Shao
²
,
Wang
³

2010
Phys. Rev. D

Hadron yield correlation in quark combination models in high-energyAAcollisions

Hadron production by quark combination in centralPb+Pbcollisions atsNN=
Shao
¹
,
Shao
²
,
Xie
³

2009
Phys. Rev. C
41
3
50
0
View full text Add to dashboard Cite

Quark number scaling of hadronic p T spectra and constituent quark degree of freedom in p –Pb collisions atsNN=5.02TeV

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Feng-lan Shao

Entropy puzzle and the quark combination model

Bs→Ds(3040)form factors andBsdecays intoLi1, Shao2, Wang3 2010Phys. Rev. D

Hadron yield correlation in quark combination models in high-energyAAcollisions

Hadron production by quark combination in centralPb+Pbcollisions atsNN=Shao1, Shao2, Xie3 2009Phys. Rev. C413500View full textAdd to dashboardCite

Quark number scaling of hadronic p T spectra and constituent quark degree of freedom in p –Pb collisions atsNN=5.02TeV

Contact Info

Product

Resources

About

Bs→Ds(3040)form factors andBsdecays into
Li
¹
,
Shao
²
,
Wang
³

2010
Phys. Rev. D

Hadron production by quark combination in centralPb+Pbcollisions atsNN=
Shao
¹
,
Shao
²
,
Xie
³

2009
Phys. Rev. C
41
3
50
0
View full text Add to dashboard Cite