Speed of Sound and Baryon Cumulants in Heavy-Ion Collisions

Sorensen, Agnieszka; Oliinychenko, Dmytro; Koch, Volker; McLerran, Larry

doi:10.1103/physrevlett.127.042303

Cited by 24 publications

(15 citation statements)

References 24 publications

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“…Our results agree with the simplified estimates of Ref. [21] qualitatively, while quantitatively they indicate a smaller c 2 T and a larger d(ln c 2 T )/d(ln n B ) at the HADES collision energy than originally obtained in [21].…”

supporting

confidence: 92%

“…The extracted susceptibilities can also be used to improve upon the analysis presented in Ref. [21], where it was shown that the cumulants can be used to estimate the (isothermal) speed of sound as well as its logarithmic derivative with respect to baryon density. To do that one needs to determine the true grand-canonical cumulants of baryon number whereas in Ref.…”

mentioning

confidence: 99%

“…To do that one needs to determine the true grand-canonical cumulants of baryon number whereas in Ref. [21] direct measurements of the momentum space proton number cumulants were used as a proxy instead. Utilizing Eqs.…”

mentioning

confidence: 99%

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Thermodynamic approach to proton number fluctuations in baryon-rich heavy-ion matter created at moderate collision energies

Vovchenko¹,

Koch²

2022

Preprint

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We point out how proton number cumulants measured in heavy-ion collisions within a momentum space acceptance can be related to the grand-canonical cumulants of baryon number, assuming that particles are emitted from a fireball with uniform distribution of temperature and baryochemical potential, superimposed on a hydrodynamic flow velocity profile. Analysis of recent experimental measurements of the HADES Collaboration shows that the rapidity acceptance dependence of proton cumulants is consistent with thermal emission of nucleons from a grand-canonical heat bath. The extracted baryon number susceptibilities exhibit an hierarchy χ1 , indicating large non-Gaussian fluctuations that might point to the presence of the QCD critical point close to the chemical freeze-out of √ sNN = 2.4 GeV Au-Au collisions at T ∼ 70 MeV and µB ∼ 850 − 900 MeV. However, the description of the experimental data at large rapidity acceptances becomes challenging once the effect of exact baryon number conservation is incorporated, suggesting that more theoretical and experimental studies are needed to reach a firm conclusion.1 We neglect the effects of Fermi-Dirac statistics on the momentum distributions in the present work.

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confidence: 92%

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confidence: 99%

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Thermodynamic approach to proton number fluctuations in baryon-rich heavy-ion matter created at moderate collision energies

Vovchenko¹,

Koch²

2022

Preprint

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“…In QCD, the chiral critical point (CP) belongs to the Z(2) universality class; thus, it is expected for the fluctuations to diverge at CP, which makes them useful probes of remnants of critical behavior in the relativistic heavy-ion collisions. It has also been recently argued that at low temperatures and large baryon densities, experimentally measured cumulants may allow for direct measurement of the sound velocity [36].…”

Section: Introductionmentioning

confidence: 99%

Reaching percolation and conformal limits in neutron stars

Marczenko¹,

McLerran²,

Redlich³

et al. 2022

Preprint

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Generating an ensemble of equations of state that fulfill multimessenger constraints, we statistically determine the properties of dense matter found inside neutron stars (NSs). We calculate the speed of sound and trace anomaly and demonstrate that they are driven towards their conformal values at the center of maximally massive NSs. The local peak of the speed of sound is shown to be located at values of the energy and particle densities which are consistent with deconfinement and percolation conditions in QCD matter. We also analyze fluctuations of the net-baryon number density in the context of possible remnants of critical behavior. We find that the global maxima of the variance of these fluctuations emerge at densities beyond those found in the interiors of NSs.

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“…The study in [30][31][32] shows that c 2 s as a function of charged particle multiplicity dN ch /dη can reveal the dynamics of heavy-ion collision. Recently, in [33] the authors estimate c s as a function of the logarithmic derivative with respect to the baryon density of QCD matter, and try to build a connection with the baryon number cumulants to aid in detecting the QCD critical endpoint.…”

Section: Introductionmentioning

confidence: 99%

Speed of sound in QCD matter

He,

Shao,

Gao

et al. 2022

Preprint

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We systematically investigate the speed of sound in QCD matter under different conditions in the grand canonical ensemble within the Polyakov loop improved Nambu-Jona-Lasinio (PNJL) model. The numerical results indicate that the dependence of speed of sound on parameters like temperature and chemical potential can be indicative of QCD phase transition. Some new features of speed of sound are discovered, for instance, the hierarchy of sound velocity for u(d) and s quark at low temperature with the increasing chemical potential and the squared sound velocity approaching to almost zero in the critical region. We also formulate the relations between differently defined sound velocity using the fundamental thermodynamic relations. Some conclusions derived are useful for hydrodynamics simulation and calculation of transport coefficient of bulk viscosity.

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Speed of Sound and Baryon Cumulants in Heavy-Ion Collisions

Cited by 24 publications

References 24 publications

Thermodynamic approach to proton number fluctuations in baryon-rich heavy-ion matter created at moderate collision energies

Thermodynamic approach to proton number fluctuations in baryon-rich heavy-ion matter created at moderate collision energies

Reaching percolation and conformal limits in neutron stars

Speed of sound in QCD matter

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