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1. Possible signals of two QCD phase transitions at NICA-FAIR energies

Author

Bugaev K. A., Ivanytskyi A. I., Sagun V. V., Grinyuk B. E., Savchenko D. O., Zinovjev G. M., Nikonov E. G., Bravina L. V., Zabrodin E. E., Blaschke D. B., Kabana S., and Taranenko A. V.

Subjects
Physics, QC1-999
Abstract

The chemical freeze-out irregularities found with the most advanced hadron resonance gas model and possible signals of two QCD phase transitions are discussed. We have found that the center-of-mass collision energy range of tricritical endpoint of QCD phase diagram is [9; 9.2] GeV which is consistent both with the QCD inspired exactly solvable model and experimental findings.

Published
2019
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2. Induced surface and curvature tension equation of state for hadron resonance gas in finite volumes and its relation to morphological thermodynamics

Author

Bugaev, K. A., Vitiuk, O. V., Grinyuk, B. E., Panasiuk, P. P., Yakovenko, N. S., Zherebtsova, E. S., Sagun, V. V., Ivanytskyi, O. I., Bravina, L. V., Blaschke, D. B., Kabana, S., Kuleshov, S. V., Taranenko, A. V., Zabrodin, E. E., and Zinovjev, G. M.

Subjects
High Energy Physics - Phenomenology
Abstract

Here we develop an original approach to investigate the grand canonical partition function of the multicomponent mixtures of Boltzmann particles with hard-core interaction in finite and even small systems of the volumes above 20 fm$^3$. The derived expressions of the induced surface tension equation of state are analyzed in details. It is shown that the metastable states, which can emerge in the finite systems with realistic interaction, appear at very high pressures at which the hadron resonance gas, most probably, is not applicable at all. It is shown how and under what conditions the obtained results for finite systems can be generalized to include into a formalism the equation for curvature tension. The applicability range of the obtained equations of induced surface and curvature tensions for finite systems is discussed and their close relations to the equations of the morphological thermodynamics are established. The hadron resonance gas model on the basis of the obtained advanced equation of state is worked out. Also, this model is applied to analyze the chemical freeze-out of hadrons and light nuclei with the number of (anti-)baryons not exceeding 4, including the most problematic ratios of hyper-triton and its antiparticle. Their multiplicities were measured by the ALICE Collaboration in the central lead-lead collisions at the center-of-mass energy $\sqrt{s_{\rm NN}} =$ 2.76 TeV., Comment: 24 pages, 3 figures and 1 table

Published
2021
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3. Chemical freeze-out of light nuclei in high energy nuclear collisions and resolution of the hyper-triton chemical freeze-out puzzle

Author

Bugaev, K. A., Vitiuk, O. V., Grinyuk, B. E., Yakovenko, N. S., Zherebtsova, E. S., Sagun, V. V., Ivanytskyi, O. I., Savchenko, D. O., Bravina, L. V., Blaschke, D. B., Farrar, G. R., Kabana, S., Kuleshov, S. V., Nikonov, E. G., Taranenko, A. V., Zabrodin, E. E., and Zinovjev, G. M.

Subjects
Nuclear Theory, High Energy Physics - Phenomenology
Abstract

We present a summary of the recent results obtained with the novel hadron resonance gas model with the multicomponent hard-core repulsion which is extended to describe the mixtures of hadrons and light (anti-, hyper-)nuclei. A very accurate description is obtained for the hadronic and the light nuclei data measured by STAR at the collision energy $\sqrt{s_{NN}} =200$ GeV and by ALICE at $\sqrt{s_{NN}} =2.76$ TeV. The most striking result discussed here is that for the most probable chemical freeze-out scenario for the STAR energy the found parameters allow us to reproduce the values of the experimental ratios $S_3$ and $\overline{S}_3$ without fitting., Comment: 6 pages, 3 figures

Published
2020
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4. Second virial coefficients of light nuclear clusters and their chemical freeze-out in nuclear collisions

Author

Bugaev, K. A., Vitiuk, O. V., Grinyuk, B. E., Sagun, V. V., Yakovenko, N. S., Ivanytskyi, O. I., Zinovjev, G. M., Blaschke, D. B., Nikonov, E. G., Bravina, L. V., Zabrodin, E. E., Kabana, S., Kuleshov, S. V., Farrar, G. R., Zherebtsova, E. S., and Taranenko, A. V.

Subjects
Nuclear Theory, High Energy Physics - Phenomenology
Abstract

Here we develop a new strategy to analyze the chemical freeze-out of light (anti)nuclei produced in high energy collisions of heavy atomic nuclei within an advanced version of the hadron resonance gas model. It is based on two different, but complementary approaches to model the hard-core repulsion between the light nuclei and hadrons. The first approach is based on an approximate treatment of the equivalent hard-core radius of a roomy nuclear cluster and pions, while the second approach is rigorously derived here using a self-consistent treatment of classical excluded volumes of light (anti)nuclei and hadrons. By construction, in a hadronic medium dominated by pions, both approaches should give the same results. Employing this strategy to the analysis of hadronic and light (anti)nuclei multiplicities measured by ALICE at $\sqrt{s_{NN}} =2.76$ TeV and by STAR at $\sqrt{s_{NN}} =200$ GeV, we got rid of the existing ambiguity in the description of light (anti)nuclei data and determined the chemical freeze-out parameters of nuclei with high accuracy and confidence. At ALICE energy the nuclei are frozen prior to the hadrons at the temperature $T = 175.1^{+2.3}_{-3.9}$ MeV, while at STAR energy there is a single freeze-out of hadrons and nuclei at the temperature $T = 167.2 \pm 3.9$ MeV. We argue that the found chemical freeze-out volumes of nuclei can be considered as the volumes of quark-gluon bags that produce the nuclei at the moment of hadronization., Comment: 15 pages, 4 figures, 3 tables

Published
2020
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5. Classical excluded volumes of loosely bound light (anti)nuclei and their chemical freeze-out in heavy ion collisions

Author

Grinyuk, B. E., Bugaev, K. A., Sagun, V. V., Ivanytskyi, O. I., Borisyuk, D. L., Zhokhin, A. S., Zinovjev, G. M., Blaschke, D. B., Bravina, L. V., Zabrodin, E. E., Nikonov, E. G., Farrar, G., Kabana, S., Kuleshov, S. V., and Taranenko, A. V.

Subjects
High Energy Physics - Phenomenology, Nuclear Experiment, Nuclear Theory
Abstract

From the analysis of light (anti)nuclei multiplicities that were measured recently by the ALICE collaboration in Pb+Pb collisions at the center-of-mass collision energy $\sqrt{s_{NN}} =2.76$ TeV there arose a highly non-trivial question about the excluded volume of composite particles. Surprisingly, the hadron resonance gas model (HRGM) is able to perfectly describe the light (anti)nuclei multiplicities under various assumptions. Thus, one can consider the (anti)nuclei with a vanishing hard-core radius (as the point-like particles) or with the hard-core radius of proton, but the fit quality is the same for these assumptions. It is clear, however, that such assumptions are unphysical. Hence we obtain a formula for the classical excluded volume of loosely bound light nuclei consisting of A baryons. To implement a new formula into the HRGM we have to modify the induced surface tension concept to treat the hadrons and (anti)nuclei on the same footing. We perform a simultaneous analysis of hadronic and (anti)nuclei multiplicities measured by the ALICE collaboration. The HRGM with the induced surface tension allows us to verify different assumptions on the values of hard-core radii and different scenarios of chemical freeze-out of light (anti)nuclei. It is shown that the unprecedentedly high quality of fit $\chi^2_{tot}/dof \simeq 0.769$ is achieved, if the chemical freeze-out temperature of hadrons is about $T_h=150$ MeV, while the one for all (anti)nuclei is $T_A=174-175.2$ MeV., Comment: 15 pages, 2 figures

Published
2020
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6. On relation between bulk, surface and curvature parts of nuclear binding energy within the model of hexagonal clusters

Author

Sagun, V. V., Bugaev, K. A., and Ivanytskyi, A. I.

Subjects
Nuclear Theory, Nuclear Experiment
Abstract

Using the model of hexagonal clusters we express the surface, curvature and Gauss curvature coefficients of the nuclear binding energy in terms of its bulk coefficient. Using the derived values of these coefficients and a single fitting parameter we are able to reasonably well describe the experimental binding energies of nuclei with more than 100 nucleons. To improve the description of lighter nuclei we introduce the same correction for all the coefficients. In this way we determine the apparent values of the surface, curvature and Gauss curvature coefficients which may be used for infinite nuclear matter equation of state. This simple model allows us to fix the temperature dependence of all these coefficients, if the temperature dependence for the bulk term is known. The found estimates for critical temperature are well consistent both with experimental and with theoretical findings., Comment: 13 pages, 3 figures

Published
2019
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7. On separate chemical freeze-outs of hadrons and light (anti)nuclei in high energy nuclear collisions

Author

Bugaev, K. A., Grinyuk, B. E., Ivanytskyi, A. I., Sagun, V. V., Savchenko, D. O., Zinovjev, G. M., Nikonov, E. G., Bravina, L. V., Zabrodin, E. E., Blaschke, D. B., Kabana, S., and Taranenko, A. V.

Subjects
High Energy Physics - Phenomenology
Abstract

The multiplicities of light (anti)nuclei were measured recently by the ALICE collaboration in Pb+Pb collisions at the center-of-mass collision energy $\sqrt{s_{NN}} =2.76$ TeV. Surprisingly, the hadron resonance gas model is able to perfectly describe their multiplicities under various assumptions. For instance, one can consider the (anti)nuclei with a vanishing hard-core radius (as the point-like particles) or with the hard-core radius of proton, but the fit quality is the same for these assumptions. In this paper we assume the hard-core radius of nuclei consisting of $A$ baryons or antibaryons to follow the simple law $R(A) = R_b (A)^\frac{1}{3}$, where $R_b$ is the hard-core radius of nucleon. To implement such a relation into the hadron resonance gas model we employ the induced surface tension concept and analyze the hadronic and (anti)nuclei multiplicities measured by the ALICE collaboration. The hadron resonance gas model with the induced surface tension allows us to verify different scenarios of chemical freeze-out of (anti)nuclei. It is shown that the most successful description of hadrons can be achieved at the chemical freeze-out temperature $T_h=150$ MeV, while the one for all (anti)nuclei is $T_A=168.5$ MeV. Possible explanations of this high temperature of (anti)nuclei chemical freeze-out are discussed., Comment: 6 pages, 1 figure

Published
2018
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8. Possible signals of two QCD phase transitions at NICA-FAIR energies

Author

Bugaev, K. A., Ivanytskyi, A. I., Sagun, V. V., Grinyuk, B. E., Savchenko, D. O., Zinovjev, G. M., Nikonov, E. G., Bravina, L. V., Zabrodin, E. E., Blaschke, D. B., Kabana, S., and Taranenko, A. V.

Subjects
Nuclear Theory
Abstract

The chemical freeze-out irregularities found with the most advanced hadron resonance gas model and possible signals of two QCD phase transitions are discussed. We found that the center-of-mass collision energy range of tricritical endpoint of QCD phase diagram is [9; 9.2] GeV which is consistent both with QCD inspired exactly solvable model and with experimental findings., Comment: 6 pages, 2 figures

Published
2018
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9. Hard-core Radius of Nucleons within the Induced Surface Tension Approach

Author

Bugaev, K. A., Ivanytskyi, A. I., Sagun, V. V., Grinyuk, B. E., Savchenko, D. O., Zinovjev, G. M., Nikonov, E. G., Bravina, L. V., Zabrodin, E. E., Blaschke, D. B., Taranenko, A. V., and Turko, L.

Subjects
High Energy Physics - Phenomenology, Astrophysics - High Energy Astrophysical Phenomena, Nuclear Theory
Abstract

In this work we discuss a novel approach to model the hadronic and nuclear matter equations of state using the induced surface tension concept. Since the obtained equations of state, classical and quantum, are among the most successful ones in describing the properties of low density phases of strongly interacting matter, they set strong restrictions on the possible value of the hard-core radius of nucleons. Therefore, we perform a detailed analysis of its value which follows from hadronic and nuclear matter properties and find the most trustworthy range of its values: the hard-core radius of nucleons is 0.30--0.36 fm. A comparison with the phenomenology of neutron stars implies that the hard-core radius of nucleons has to be temperature and density dependent., Comment: 12 pages, 4 figures, references added, typos corrected

Published
2018
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10. Probing the tricritical endpoint of QCD phase diagram at NICA-FAIR energies

Author

Bugaev, K. A., Ivanytskyi, A. I., Sagun, V. V., Zinovjev, G. M., Nikonov, E. G., Emaus, R., Bravina, L. V., Zabrodin, E. E., and Taranenko, A. V.

Subjects
Nuclear Theory
Abstract

In this contributions we discuss the novel version of hadron resonance gas model which is based on the induced surface tension concept. Also we present new arguments in favor of a hypothesis that the chiral symmetry restoration transition in central nuclear collisions may occur at the center of mass energies 4.3-4.9 GeV and that the deconfinement phase transition may occur at the center of mass energies 8.8-9.2 GeV. These arguments are based on the unique thermostatic properties of the mixed phase and the ones of an exponential mass spectrum of hadrons., Comment: 10 pages, 4 figures

Published
2018
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11. Evidence of the QCD tricritical endpoint existence at NICA-FAIR energies

Author

Bugaev, K. A., Emaus, R., Sagun, V. V., Ivanytskyi, A. I., Bravina, L. V., Blaschke, D. B., Nikonov, E. G., Taranenko, A. V., Zabrodin, E. E., and Zinovjev, G. M.

Subjects
Nuclear Theory
Abstract

We present a summary of possible signals of the chiral symmetry restoration and deconfinement phase transitions which may be, respectively, probed at the center of mass collision energies at 4.3-4.9 GeV and above 8.7-9.2 GeV. It is argued that these signals may evidence for an existence of the tricritical endpoint of QCD phase diagram at the collision energy around 8.7-9.2 GeV. The equation of state of hadronic matter with the restored chiral symmetry is discussed and the number of bosonic and fermionic degrees of freedom is found., Comment: 5 pages

Published
2017

12. The Flow Constraint Influence on the Properties of Nuclear Matter Critical Endpoint

Author

Ivanytskyi, A. I., Bugaev, K. A., Sagun, V. V., Bravina, L. V., and Zabrodin, E. E.

Subjects
Nuclear Theory
Abstract

We propose a novel family of equations of state for symmetric nuclear matter based on the induced surface tension concept for the hard-core repulsion. It is shown that having only four adjustable parameters the suggested equations of state can, simultaneously, reproduce not only the main properties of the nuclear matter ground state, but the proton flow constraint up its maximal particle number densities. Varying the model parameters we carefully examine the range of values of incompressibility constant of normal nuclear matter and its critical temperature which are consistent with the proton flow constraint. This analysis allows us to show that the physically most justified value of nuclear matter critical temperature is 15.5-18 MeV, the incompressibility constant is 270-315 MeV and the hard-core radius of nucleons is less than 0.4 fm., Comment: 8 pages, 3 figures

Published
2017
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13. Threshold Collision Energy of the QCD Phase Diagram Tricritical Endpoint

Author

Bugaev, K. A., Emaus, R., Sagun, V. V., Ivanytskyi, A. I., Bravina, L. V., Blaschke, D. B., Nikonov, E. G., Taranenko, A. V., Zabrodin, E. E., and Zinovjev, G. M.

Subjects
High Energy Physics - Phenomenology
Abstract

Using the most advanced formulation of the hadron resonance gas model we analyze the two sets of irregularities found at chemical freeze-out of central nuclear-nuclear collisions at the center of mass energies 3.8-4.9 GeV and 7.6-9.2 GeV. In addition to previously reported irregularities at the collision energies 4.9 GeV and 9.2 GeV we found sharp peaks of baryonic charge density. Also we analyze the collision energy dependence of the modified Wroblewski factor and the strangeness suppression factor. Based on the thermostatic properties of the mixed phase of a 1-st order phase transition and the ones of the Hagedorn mass spectrum we explain, respectively, the reason of observed chemical equilibration of strangeness at the collision energy 4.9 GeV and above 8.7 GeV. It is argued that the both sets of irregularities possibly evidence for two phase transitions, namely, the 1-st order transition at lower energy range and the 2-nd order transition at higher one. In combination with a recent analysis of the light nuclei number fluctuations we conclude that the center of mass collision energy range 8.8-9.2 GeV may be in the nearest vicinity of the QCD tricritical endpoint. The properties of the phase existing between two phase transitions are revealed and discussed., Comment: 24 pages, 6 figures, to appear in PEPAN Lett

Published
2017
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14. Equation of State of Quantum Gases Beyond the Van der Waals Approximation

Author

Bugaev, K. A., Ivanytskyi, A. I., Sagun, V. V., Nikonov, E. G., and Zinovjev, G. M.

Subjects
Nuclear Theory
Abstract

A recently suggested equation of state with the induced surface tension is generalized to the case of quantum gases with mean-field interaction. The self-consistency conditions of such a model and the necessary one to obey the Third Law of thermodynamics are found. The quantum virial expansion of the Van der Waals models of such a type is analyzed and its virial coefficients are given. In contrast to traditional beliefs, it is shown that an inclusion of the third and higher virial coefficients of the gas of hard spheres into the interaction pressure of the Van der Waals models either breaks down the Third Law of thermodynamics or does not allow one to go beyond the Van der Waals approximation at low temperatures. It is demonstrated that the generalized equation of state with the induced surface tension allows one to avoid such problems and to safely go beyond the Van der Waals approximation. Besides, the effective virial expansion for quantum version of the induced surface tension equation of state is established and all corresponding virial coefficients are found exactly.The explicit expressions for the true quantum virial coefficients of an arbitrary order of this equation of state are given in the low density approximation. A few basic constraints on such models which are necessary to describe the nuclear and hadronic matter properties are discussed., Comment: 16 pages (extended version), 2 figures

Published
2017

15. Hadron Resonance Gas Model with Induced Surface Tension

Author

Sagun, V. V., Bugaev, K. A., Ivanytskyi, A. I., Yakimenko, I. P., Nikonov, E. G., Taranenko, A. V., Greiner, C., Blaschke, D. B., and Zinovjev, G. M.

Subjects
High Energy Physics - Phenomenology
Abstract

Here we present a physically transparent generalization of the multicomponent Van der Waals equation of state in the grand canonical ensemble. For the one-component case the third and fourth virial coefficients are calculated analytically. It is shown that an adjustment of a single model parameter allows us to reproduce the third and fourth virial coefficients of the gas of hard spheres with small deviations from their exact values. A thorough comparison of the compressibility factor and speed of sound of the developed model with the one and two component Carnahan-Starling equation of state is made. It is shown that the model with the induced surface tension is able to reproduce the results of the Carnahan-Starling equation of state up to the packing fractions 0.2-0.22 at which the usual Van der Waals equation of state is inapplicable. At higher packing fractions the developed equation of state is softer than the gas of hard spheres and, hence, it breaks causality in the domain where the hadronic description is expected to be inapplicable. Using this equation of state we develop an entirely new hadron resonance gas model and apply it to a description of the hadron yield ratios measured at AGS, SPS, RHIC and ALICE energies of nuclear collisions. The achieved quality of the fit per degree of freedom is about 1.08. We confirm that the strangeness enhancement factor has a peak at low AGS energies, while at and above the highest SPS energy of collisions the chemical equilibrium of strangeness is observed. We argue that the chemical equilibrium of strangeness, i.e. $\gamma_s \simeq 1$, observed above the center of mass collision energy 4.3 GeV may be related to the hadronization of quark gluon bags which have the Hagedorn mass spectrum, and, hence, it may be a new signal for the onset of deconfinement.

Published
2017
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16. Evidence of the mixed phase formation in nucleus-nucleus collisions

Author

Sagun, V. V., Bugaev, K. A., Ivanytskyi, A. I., and Oliinychenko, D. R.

Subjects
Nuclear Theory, High Energy Physics - Phenomenology
Abstract

Searchers for various irregularities in the behavior of thermodynamic quantities at chemical freeze-out (CFO) are rather important in a view of experimental studies of quark-gluon plasma (QGP). Using the multicomponent hadron resonance gas model (HRGM), developed in (Sagun, 2014; Bugaev et al., 2015), we performed a high-quality fit of 111 hadronic ratios measured for 14 values of the center of mass collision energies between 2.7 GeV and 200 GeV with the overall fit quality $\chi^2/dof \simeq 0.95$. In addition to previously reported singularities (Bugaev et al., 2015) at CFO we found that the hadron yield ratios $\frac{\Lambda}{p}$, $\frac{K^{+}}{p}$, $\frac{K^{+}}{\Lambda}$, $\frac{\Omega^{-}}{p}$ and $\frac{\Xi^{-}}{p}$ measured in central nuclear collisions demonstrate a significant change of slope in the same range of center of mass collision energy $\sqrt{s_{NN}} = 4.3-4.9$ GeV (Bugaev et al., 2015). This change of slopes is accompanied by a dramatic increase of resonance decays at CFO. Also at CFO the trace anomaly and baryonic density demonstrate the pronounced peaks at the collision energy $\sqrt{s_{NN}} = 4.9 $ GeV. We argue that all these and previously found irregularities provide an evidence for the QGP formation in nuclear collisions at about $\sqrt{s_{NN}} = 4.9 $ GeV., Comment: Proceedings of the Week of Doctoral Students (WDS) 2016 Conference, 6 pages, 4 figures

Published
2016

17. Geometrical Clusterization in SU(2) gluodynamics and Liquid-gas Phase Transition

Author

Ivanytskyi, A. I., Bugaev, K. A., Sagun, V. V., and Oliinychenko, D. R.

Subjects
Nuclear Theory
Abstract

The liquid droplet formula is applied to an analysis of the properties of geometrical (anti)clusters formed in SU(2) gluodynamics by the Polyakov loops of the same sign. Using this approach, we explain the phase transition in SU(2) gluodynamics as a transition between two liquids during which one of the liquid droplets (the largest cluster of a certain Polyakov loop sign) experiences a condensation, while another droplet (the next to the largest cluster of the opposite sign of Polyakov loop) evaporates. The clusters of smaller sizes form two accompanying gases, which behave oppositely to their liquids. The liquid droplet formula is used to analyze the size distributions of the gas (anti)clusters. The fit of these distributions allows us to extract the temperature dependence of surface tension and the value of Fisher topological exponent $\tau$ for both kinds of gaseous clusters. It is shown that the surface tension coeficient of gaseous (anti)clusters can serve as an order parameter of the deconfinement phase transition in SU(2) gluodynamics. The Fisher topological exponent $\tau$ of (anti)clusters is found to have the same value $1.806 \pm 0.008$. This value disagrees with the famous Fisher droplet model, but it agrees well with an exactly solvable model of nuclear liquid-gas phase transition. This finding may evidence for the fact that the SU(2) gluodynamics and this exactly solvable model of nuclear liquid-gas phase transition are in the same universality class., Comment: 6 pages, 5 figures, proceedings of WDS 2016 Conference

Published
2016

18. Effects of Induced Surface Tension in Nuclear and Hadron Matter

Author

Sagun, V. V., Bugaiev, K. A., Ivanytskyi, A. I., Oliinychenko, D. R., and Mishustin, I. N.

Subjects
Nuclear Theory, Astrophysics - High Energy Astrophysical Phenomena, High Energy Physics - Phenomenology
Abstract

Short range particle repulsion is rather important property of the hadronic and nuclear matter equations of state. We present a novel equation of state which is based on the virial expansion for the multicomponent mixtures with hard-core repulsion. In addition to the hard-core repulsion taken into account by the proper volumes of particles, this equation of state explicitly contains the surface tension which is induced by another part of the hard-core repulsion between particles. At high densities the induced surface tension vanishes and the excluded volume treatment of hard-core repulsion is switched to its proper volume treatment. Possible applications of this equation of state to a description of hadronic multiplicities measured in A+A collisions, to an investigation of the nuclear matter phase diagram properties and to the neutron star interior modeling are discussed., Comment: Proceedings of the XII Quark Confinement and Hadron Spectrum Conference (CONF12), 5 pages, 8 figures

Published
2016
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19. Hadron Resonance Gas Model for An Arbitrarily Large Number of Different Hard-Core Radii

Author

Bugaev, K. A., Sagun, V. V., Ivanytskyi, A. I., Yakimenko, I. P., Nikonov, E. G., Taranenko, A. V., and Zinovjev, G. M.

Subjects
Nuclear Theory, High Energy Physics - Phenomenology
Abstract

We develop a novel formulation of the hadron-resonance gas model which, besides a hard-core repulsion, explicitly accounts for the surface tension induced by the interaction between the particles. Such an equation of state allows us to go beyond the Van der Waals approximation for any number of different hard-core radii. A comparison with the Carnahan-Starling equation of state shows that the new model is valid for packing fractions 0.2-0.22, while the usual Van der Waals model is inapplicable at packing fractions above 0.1-0.11. Moreover, it is shown that the equation of state with induced surface tension is softer than the one of hard spheres and remains causal at higher particle densities. The great advantage of our model is that there are only two equations to be solved and it does not depend on the various values of the hard-core radii used for different hadronic resonances. Using this novel equation of state we obtain a high-quality fit of the ALICE hadron multiplicities measured at center-of-mass energies of 2.76 TeV per nucleon. Furthermore, using the traditional hadron-resonance gas model with multi-component hard-core repulsion and the novel one we investigate the recently suggested model in which the proper volume of a hadron is proportional to its mass. We find that the high-temperature maximum of $\chi^2/ndf$ observed in the latter model always appears in the region located far above the limit of its applicability., Comment: More results are presented, new figures and new section are added; the list of authors is updated

Published
2016

20. Separate chemical freeze-outs of strange and non-strange hadrons and problem of residual chemical non-equilibrium of strangeness in relativistic heavy ion collisions

Author

Bugaev, K. A., Oliinychenko, D. R., Sagun, V. V., Ivanytskyi, A. I., Cleymans, J., Mironchuk, E. S., Nikonov, E. G., Taranenko, A. V., and Zinovjev, G. M.

Subjects
Nuclear Theory
Abstract

We present an elaborate version of the hadron resonance gas model with the combined treatment of separate chemical freeze-outs for strange and non-strange hadrons and with an additional $\gamma_{s}$ factor which accounts for the remaining strange particle non-equilibration. Within suggested approach the parameters of two chemical freeze-outs are connected by the conservation laws of entropy, baryonic charge, third isospin projection and strangeness. The developed model enables us to perform a high-quality fit of the hadron multiplicity ratios measured at AGS, SPS and RHIC with $\chi^2/dof \simeq 0.93$. A special attention is paid to a successful description of the Strangeness Horn. The well-known problem of selective suppression of $\bar \Lambda $ and $\bar \Xi$ hyperons is also discussed. The main result is that for all collision energies the $\gamma_{s}$ factor is about 1 within the error bars, except for the center of mass collision energy 7.6 GeV at which we find about 20\% enhancement of strangeness. Also we confirm an existence of strong jumps in pressure, temperature and effective number of degrees of freedom at the stage of strange particle chemical freeze-out, when the center of mass collision energy changes from 4.3 to 4.9 GeV. We argue that these irregularities may signal about the quark-hadron phase transition., Comment: 15 pages. This is greatly improved and essentially extended version of arXiv:1312.5149. The title and list of authors are undated

Published
2016

21. Physical properties of Polyakov loop geometrical clusters in SU(2) gluodynamics

Author

Ivanytskyi, A. I., Bugaev, K. A., Nikonov, E. G., Ilgenfritz, E. -M., Oliinychenko, D. R., Sagun, V. V., Mishustin, I. N., Petrov, V. K., and Zinovjev, G. M.

Subjects
High Energy Physics - Lattice
Abstract

We apply the liquid droplet model to describe the clustering phenomenon in SU(2) gluodynamics, especially, in the vicinity of the deconfinement phase transition. In particular, we analyze the size distributions of clusters formed by the Polyakov loops of the same sign. Within such an approach this phase transition can be considered as the transition between two types of liquids where one of the liquids (the largest droplet of a certain Polyakov loop sign) experiences a condensation, while the other one (the next to largest droplet of opposite Polyakov loop sign) evaporates. The clusters of smaller sizes form two accompanying gases, and their size distributions are described by the liquid droplet parameterization. By fitting the lattice data we have extracted the value of Fisher exponent $\tau =$ 1.806 $\pm$ 0.008. Also we found that the temperature dependences of the surface tension of both gaseous clusters are entirely different below and above the phase transition and, hence, they can serve as an order parameter. The critical exponents of the surface tension coefficient in the vicinity of the phase transition are found. Our analysis shows that the temperature dependence of the surface tension coefficient above the critical temperature has a $T^2$ behavior in one gas of clusters and $T^4$ in the other one., Comment: Published online in Nucl. Phys. A

Published
2016
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22. A possible evidence of observation of two mixed phases in nuclear collisions

Author

Bugaev, K. A., Ivanytskyi, A. I., Sagun, V. V., Zinovjev, G. M., Oliinychenko, D. R., Trubnikov, V. S., and Nikonov, E. G.

Subjects
Nuclear Theory
Abstract

Using an advanced version of the hadron resonance gas model we have found several remarkable irregularities at chemical freeze-out. The most prominent of them are two sets of highly correlated quasi-plateaus in the collision energy dependence of the entropy per baryon, total pion number per baryon, and thermal pion number per baryon which we found at center of mass energies 3.6-4.9 GeV and 7.6-10 GeV. The low energy set of quasi-plateaus was predicted a long time ago. On the basis of the generalized shock-adiabat model we demonstrate that the low energy correlated quasi-plateaus give evidence for the anomalous thermodynamic properties of the mixed phase at its boundary to the quark-gluon plasma. The question is whether the high energy correlated quasi-plateaus are also related to some kind of mixed phase. In order to answer this question we employ the results of a systematic meta-analysis of the quality of data description of 10 existing event generators of nucleus-nucleus collisions in the range of center of mass collision energies from 3.1 GeV to 17.3 GeV. These generators are divided into two groups: the first group includes the generators which account for the quark-gluon plasma formation during nuclear collisions, while the second group includes the generators which do not assume the quark-gluon plasma formation in such collisions. Comparing the quality of data description of more than a hundred of different data sets of strange hadrons by these two groups of generators, we find two regions of the equal quality of data description which are located at the center of mass collision energies 4.3-4.9 GeV and 10.-13.5 GeV. These two regions of equal quality of data description we interpret as regions of the hadron-quark-gluon mixed phase formation., Comment: 11 pages, figures. arXiv admin note: text overlap with arXiv:1510.03099

Published
2015
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23. New Signals of Quark-Gluon-Hadron Mixed Phase Formation

Author

Bugaev, K. A., Sagun, V. V., Ivanytskyi, A. I., Oliinychenko, D. R., Ilgenfritz, E. -M., Nikonov, E. G., Taranenko, A. V., and Zinovjev, G. M.

Subjects
Nuclear Theory
Abstract

Here we present several remarkable irregularities at chemical freeze-out which are found using an advanced version of the hadron resonance gas model. The most prominent of them are the sharp peak of the trace anomaly existing at chemical freeze-out at the center of mass energy 4.9 GeV and two sets of highly correlated quasi-plateaus in the collision energy dependence of the entropy per baryon, total pion number per baryon, and thermal pion number per baryon which we found at the center of mass energies 3.8-4.9 GeV and 7.6-10 GeV. The low energy set of quasi-plateaus was predicted a long time ago. On the basis of the generalized shock-adiabat model we demonstrate that the low energy correlated quasi-plateaus give evidence for the anomalous thermodynamic properties inside the quark-gluon-hadron mixed phase. It is also shown that the trace anomaly sharp peak at chemical freeze-out corresponds to the trace anomaly peak at the boundary between the mixed phase and quark gluon plasma. We argue that the high energy correlated quasi-plateaus may correspond to a second phase transition and discuss its possible origin and location. Besides we suggest two new observables which may serve as clear signals of these phase transformations., Comment: 14 pages, 4 figures, new signals of QGP formation are suggested

Published
2015
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24. Recent Results of the Hadron Resonance Gas Model and the Chemical Freeze-out of Strange Hadrons

Author

Bugaev, K. A., Ivanytskyi, A. I., Oliinychenko, D. R., Nikonov, E. G., Sagun, V. V., and Zinovjev, G. M.

Subjects
High Energy Physics - Phenomenology, Nuclear Theory
Abstract

A detailed discussion of recent results obtained within the hadron resonance gas model with the multi-component hard core repulsion is presented. Among them there are the adiabatic chemical freeze-out criterion, the concept of separate chemical freeze-out of strange particles and the effects of enhancement and sharpening of wide resonances and quark gluon bags occurring in a thermal medium. These findings are discussed in order to strengthen the planned heavy-ion collision experimental programs at low collision energies. We argue, that due to found effects, at the center of mass collision energy 4-8 GeV the quark gluon bags may appear directly or in decays as new heavy resonances with the narrow width of about 50-150 MeV and with the mass above 2.5 GeV., Comment: 11 pages, 6 figures. minor changes of text

Published
2014

25. Thermodynamically Anomalous Regions and Possible New Signals of Mixed Phase Formation

Author

Bugaev, K. A., Ivanytskyi, A. I., Oliinychenko, D. R., Sagun, V. V., Mishustin, I. N., Rischke, D. H., Satarov, L. M., and Zinovjev, G. M.

Subjects
Nuclear Theory
Abstract

Using an advanced version of the hadron resonance gas model we have found indications for irregularities in data for hadrons produced in relativistic heavy-ion collisions. These include an abrupt change of the effective number of degrees of freedom, a change of the slope of the ratio of lambda hyperons to protons at laboratory energies 8.6--11.6 AGeV, as well as highly correlated plateaus in the collision-energy dependence of the entropy per baryon, total pion number per baryon, and thermal pion number per baryon at laboratory energies 6.9-11.6 AGeV. Also, we observe a sharp peak in the dimensionless trace anomaly at a laboratory energy of 11.6 AGeV. On the basis of the generalized shock-adiabat model we demonstrate that these observations give evidence for the anomalous thermodynamic properties of the mixed phase at its boundary to the quark-gluon plasma. We argue that the trace-anomaly peak and the local minimum of the generalized specific volume observed at a laboratory energy of 11.6 AGeV provide a signal for the formation of a mixed phase between the quark-gluon plasma and the hadron phase. This naturally explains the change of slope in the energy dependence of the yield of lambda hyperons per proton at a laboratory energy of 8.6 GeV., Comment: 35 pages, figure 14 with new data is added, references are updated

Published
2014

26. $\Lambda$ - anomaly in the hadron chemical freeze-out

Author

Sagun, V. V.

Subjects
High Energy Physics - Phenomenology, Nuclear Theory
Abstract

A new way to overcome the $\Lambda$ hyperon selective suppression, which is known as the $\Lambda$-anomaly, has been suggested. In particular, the additional radius of a $\Lambda$ hyperon is introduced into the model of hadron resonance gas with the multicomponent hard-core repulsion. The proposed approach allows one to describe the hadron multiplicity ratios measured at the AGS, SPS and RHIC energies with the accuracy $\chi^{2}/dof=$52/55$\simeq $0.95., Comment: 9 pages, 13 figures

Published
2014

27. Thermodynamically Anomalous Regions As A Mixed Phase Signal

Author

Bugaev, K. A., Ivanytskyi, A. I., Oliinychenko, D. R., Sagun, V. V., Mishustin, I. N., Rischke, D. H., Satarov, L. M., and Zinovjev, G. M.

Subjects
High Energy Physics - Phenomenology
Abstract

Using the most advanced model of the hadron resonance gas we reveal, at chemical freeze-out, remarkable irregularities such as an abrupt change of the effective number of degrees of freedom and plateaus in the collision-energy dependence of the entropy per baryon, total pion number per baryon, and thermal pion number per baryon at laboratory energies 6.9-11.6 AGeV. On the basis of the generalized shock adiabat model we show that these plateaus give evidence for the thermodynamic anomalous properties of the mixed phase at its boundary to the quark-gluon plasma (QGP). A new signal for QGP formation is suggested and justified., Comment: 15 pages, 5 figures, minor changes in text

Published
2014
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28. Strangeness enhancement at the hadronic chemical freeze-out

Author

Sagun, V. V., Oliinychenko, D. R., Bugaev, K. A., Cleymans, J., Ivanytskyi, A. I., Mishustin, I. N., and Nikonov, E. G.

Subjects
High Energy Physics - Phenomenology, Nuclear Theory
Abstract

The chemical freeze-out of hadrons created in the high energy nuclear collisions is studied within the realistic version of the hadron resonance gas model. The chemical non-equilibrium of strange particles is accounted via the usual $\gamma_{s}$ factor which gives us an opportunity to perform a high quality fit with $\chi^2/dof \simeq 63.5/55 \simeq 1.15$ of the hadronic multiplicity ratios measured from the low AGS to the highest RHIC energies. In contrast to previous findings, at low energies we observe the strangeness enhancement instead of a suppression. In addition, the performed $\gamma_{s}$ fit allows us to achieve the highest quality of the Strangeness Horn description with $\chi^2/dof=3.3/14$. For the first time the top point of the Strangeness Horn is perfectly reproduced, which makes our theoretical horn as sharp as an experimental one. However, the $\gamma_{s}$ fit approach does not sizably improve the description of the multi-strange baryons and antibaryons. Therefore, an apparent deviation of multi-strange baryons and antibaryons from chemical equilibrium requires further explanation., Comment: 7 pages, 12 figures

Published
2014

29. Separate chemical freeze-out of strange particles with conservation laws

Author

Oliinychenko, D. R., Sagun, V. V., Ivanytskyi, A. I., and Bugaev, K. A.

Subjects
High Energy Physics - Phenomenology, Nuclear Theory
Abstract

The Hadron Resonance Gas Model with two chemical freeze-outs, connected by conservation laws is considered. We are arguing that the chemical freeze-out of strange hadrons should occur earlier than the chemical freeze-out of non-strange hadrons. The hadron multiplicities measured in the heavy ion collisions for the center of mass energy range 2.7 - 200 GeV are described well by such a model. Based on a success of such an approach, a radical way to improve the Hadron Resonance Gas Model performance is suggested. Thus, we suggest to identify the hadronic reactions that freeze-out noticeably earlier or later that most of the others reactions (for different collision energies they may be different) and to consider a separate freeze-out for them., Comment: 9 pages, 7 figures. arXiv admin note: text overlap with arXiv:1308.3594

Published
2014

30. Bimodality as a signal of the nuclear liquid-gas phase transition

Author

Sagun, V. V., Ivanytskyi, A. I., Oliinychenko, D. R., and Bugaev, K. A.

Subjects
Nuclear Theory
Abstract

Here we present an explicit counterexample to a bimodality concept as the unique signal of first order phase transition. Using an exact solution of the simplified version of the statistical multifragmentation model we demonstrate that the bimodal distributions can naturally appear in infinite system without a phase transition in the regions of the negative values of the surface tension coefficient. Also we propose a new parameterization for the compressible nuclear liquid which is consistent with the L. van Hove axioms of statistical mechanics. As a result the proposed model does not lead to the irregular behaviour of the isotherms in the mixed phase region which is typical for mean-field models. Peculiarly, the suggested approach to account for the nuclear liquid compressibility automatically leads to an appearance of an additional state that in many respects resembles the physical antinuclear matter., Comment: 4 pages, 4 figures, Proceedings of the International School-seminar "New Physics and Quantum Chromodynamics at external Conditions", May 22-24 2013, Dnipropetrovsk, Ukraine

Published
2014

31. Chemical freeze-outs of strange and non-strange particles and residual chemical non-equilibrium

Author

Bugaev, K. A., Oliinychenko, D. R., Sagun, V. V., Ivanytskyi, A. I., Cleymans, J., Nikonov, E. G., and Zinovjev, G. M.

Subjects
High Energy Physics - Phenomenology
Abstract

We propose an elaborate version of the hadron resonance gas model with the combined treatment of separate chemical freeze-outs for strange and non-strange hadrons and with an additional \gamma_{s} factor which accounts for the remaining strange particle non-equilibration. Two sets of chemical freeze-outs parameters are connected by the conservation laws of entropy, baryonic charge, isospin projection and strangeness. The developed approach enables us to perform a high-quality fit of the hadron multiplicity ratios for AGS, SPS and RHIC energies with total \chi^2/dof \simeq 1.05. A special attention is paid to a complete description of the Strangeness Horn. A well-known \bar p, \bar \Lambda and \bar \Xi selective suppression problem is also discussed., Comment: 9 pages, 6 figures

Published
2013

32. Non-smooth Chemical Freeze-out and Apparent Width of Wide Resonances and Quark Gluon Bags in a Thermal Environment

Author

Bugaev, K. A., Ivanytskyi, A. I., Oliinychenko, D. R., Nikonov, E. G., Sagun, V. V., and Zinovjev, G. M.

Subjects
Nuclear Theory
Abstract

Here we develop the hadron resonance gas model with the Gaussian width of hadron resonances. This model allows us to treat the usual hadrons and the quark gluon bags on the same footing and to study the stability of the results obtained within different formulations of the hadron resonance gas model. In this work we perform a successful fit of 111 independent hadronic multiplicity ratios measured for $\sqrt{s_{NN}} $= 2.7- 200 GeV. We demonstrate that in a narrow range of collision energy $\sqrt{s_{NN}} =$ 4.3-4.9 GeV there exist peculiar irregularities in various thermodynamic quantities found at chemical freeze-out. The most remarkable irregularity is an unprecedented jump of the number of effective degrees of freedom observed in this narrow energy range which is seen in all realistic versions of the hadron resonance gas model. Therefore, the developed concept is called the non-smooth chemical freeze-out. We are arguing that these irregularities evidence for the possible formation of quark gluon bags. In order to develop other possible signals of their formation here we study the apparent width of wide hadronic resonances and quark gluon bags in a thermal environment. Two new effects generated for the wide resonances and quark gluon bags by a thermal medium are discussed here: the near threshold thermal resonance enhancement and the near threshold thermal resonance sharpening. On the basis of the new effects we argue that the most optimistic chance to find experimentally the quark gluon bags may be related to their sharpening and enhancement in a thermal medium. In this case the wide quark gluon bags may appear directly or in decays as narrow resonances that are absent in the tables of elementary particles and that have the apparent width about 50-120 MeV and the mass about or above 2.5 GeV., Comment: 21 pages, 11 figures, two pages and 4 figures are added

Published
2013

33. Bimodality Phenomenon in Finite and Infinite Systems Within an Exactly Solvable Statistical Model

Author

Sagun, V. V., Ivanytskyi, A. I., Bugaev, K. A., and Oliinychenko, D. R.

Subjects
Nuclear Theory
Abstract

We present a few explicit counterexamples to the widely spread belief about an exclusive role of the bimodal nuclear fragment size distributions as the first order phase transition signal. In thermodynamic limit the bimodality may appear at the supercritical temperatures due to the negative values of the surface tension coefficient. Such a result is found within a novel exactly solvable formulation of the simplified statistical multifragmentation model based on the virial expansion for a system of the nuclear fragments of all sizes. The developed statistical model corresponds to the compressible nuclear liquid with the tricritical endpoint located at one third of the normal nuclear density. Its exact solution for finite volumes demonstrates the bimodal fragment size distribution right inside the finite volume analog of a gaseous phase. These counterexamples clearly demonstrate the pitfalls of Hill approach to phase transitions in finite systems., Comment: Talk given at the Helmholtz International Summer School "Physics of Heavy Quarks and Hadrons", held in Dubna, Russia, July 15-28, 2013

Published
2013

34. Chemical Freeze-out of Strange Particles and Possible Root of Strangeness Suppression

Author

Bugaev, K. A., Oliinychenko, D. R., Cleymans, J., Ivanytskyi, A. I., Mishustin, I. N., Nikonov, E. G., and Sagun, V. V.

Subjects
High Energy Physics - Phenomenology, Nuclear Theory
Abstract

Two approaches to treat the chemical freeze-out of strange particles in hadron resonance gas model are analyzed. The first one employs their non-equillibration via the usual \gamma_s factor and such a model describes the hadron multiplicities measured in nucleus-nucleus collisions at AGS, SPS and RHIC energies with \chi^2/dof = 1.15. Surprisingly, at low energies we find not the strangeness suppression, but its enhancement. Also we suggest an alternative approach to treat the strange particle freeze-out separately, but with the full chemical equilibration. This approach is based on the conservation laws which allow us to connect the freeze-outs of strange and non-strange hadrons. Within the suggested approach the same set of hadron multiplicities can be described better than within the conventional approach with \chi^2/dof = 1.06. Remarkably, the fully equilibrated approach describes the strange hyperons and antihyperons much better than the conventional one., Comment: 6 pages, 5 figures

Published
2013
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35. Is bimodality a sufficient condition for a first order phase transition existence?

Author

Bugaev, K. A., Ivanytskyi, A. I., Sagun, V. V., and Oliinychenko, D. R.

Subjects
Nuclear Theory
Abstract

Here we present two explicit counterexamples to the widely spread beliefs about an exclusive role of bimodality as the first order phase transition signal. On the basis of an exactly solvable statistical model generalizing the statistical multifragmentation model we demonstrate that the bimodal distributions can naturally appear both in infinite and in finite systems without a phase transition. In the first counterexample a bimodal distribution appears in an infinite system at the supercritical temperatures due to the negative values of the surface tension coefficient. In the second counterexample we explicitly demonstrate that a bimodal fragment distribution appears in a finite volume analog of a gaseous phase. In contrast to the statistical multifragmentation model, the developed statistical model corresponds to the compressible nuclear liquid with the tricritical endpoint located at one third of the normal nuclear density. The suggested parameterization of the liquid phase equation of state is consistent with the L. van Hove axioms of statistical mechanics and it does not lead to an appearance of the non-monotonic isotherms in the macroscopic mixed phase region which are typical for the classical models of the Van der Waals type. Peculiarly, such a way to account for the nuclear liquid compressibility automatically leads to an appearance of an additional state that in many respects resembles the physical antinuclear matter., Comment: 22 pages, 9 figures

Published
2013
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36. The statistical multifragmentation model for liquid-gas phase transition with a compressible nuclear liquid

Author

Sagun, V. V., Ivanytskyi, A. I., Bugaev, K. A., and Mishustin, I. N.

Subjects
Nuclear Theory
Abstract

We propose a new formulation of the statistical multifragmentation model based on the analysis of the virial expansion for a system of the nuclear fragments of all sizes. The developed model not only enables us to account for short-range repulsion, but also to calculate the surface free energy which is induced by the interaction between the fragments. We propose a new parameterization for the liquid phase pressure which allows us to introduce a compressible nuclear liquid into the statistical multifragmentation model. The resulting model is exactly solvable and has no irregular behavior of the isotherms in the mixed phase region that is typical for mean-field models. The general conditions for the 1-st and 2-nd (or higher) order phase transitions are formulated. It is shown that all endpoints of the present model phase diagram are the tricritical points, if the Fisher exponent $\tau$ is in the range $\{3}{2} \le \tau \le 2$. The treatment of nuclear liquid compressibility allows us to reduce the tricritical endpoint density of the statistical multifragmentation model to one third of the normal nuclear density. A specific attention is paid to of the fragment size distributions in the region of a negative surface tension at supercritical temperatures., Comment: 22 pages, 8 figures

Published
2013
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37. Can bimodality exist without phase transition?

Author

Sagun, V. V., Ivanytskyi, A. I., Oliinychenko, D. R., and Bugaev, K. A.

Subjects
Nuclear Theory, Condensed Matter - Statistical Mechanics
Abstract

Here we present an explicit counterexample to the widely spread beliefs about an exclusive role of bimodality as the first order phase transition signal. On the basis of an exactly solvable statistical model generalizing the statistical multifragmentation model of nuclei we demonstrate that the bimodal nuclear fragment size distributions can naturally appear in infinite system without a phase transition. It appears at the supercritical temperatures due to the negative values of the surface tension coefficient. The developed statistical model corresponds to the compressible nuclear liquid with the tricritical endpoint located at one third of the normal nuclear density., Comment: Talk at XI International Scientific Conference of Students and Young Scientists "Shevchenkivska Vesna 2013", held in Kyiv, March 18-22, 2013

Published
2013

43. Induced surface and curvature tension equation of state for hadron resonance gas in finite volumes and its relation to morphological thermodynamics

Author

Bugaev, K. A., primary, Vitiuk, O. V., additional, Grinyuk, B. E., additional, Panasiuk, P. P., additional, Yakovenko, N. S., additional, Zherebtsova, E. S., additional, Sagun, V. V., additional, Ivanytskyi, O. I., additional, Bravina, L. V., additional, Blaschke, D. B., additional, Kabana, S., additional, Kuleshov, S. V., additional, Taranenko, A. V., additional, Zabrodin, E. E., additional, and Zinovjev, G. M., additional

Published
2021
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45. Chemical freeze-out of light nuclei in high energy nuclear collisions and resolution of the hyper-triton chemical freeze-out puzzle

Author

Bugaev, K A, primary, Vitiuk, O V, additional, Grinyuk, B E, additional, Yakovenko, N S, additional, Zherebtsova, E S, additional, Sagun, V V, additional, Ivanytskyi, O I, additional, Savchenko, D O, additional, Bravina, L V, additional, Blaschke, D B, additional, Farrar, G R, additional, Kabana, S, additional, Kuleshov, S V, additional, Nikonov, E G, additional, Taranenko, A V, additional, Zabrodin, E E, additional, and Zinovjev, G M, additional

Published
2020
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46. Second virial coefficients of light nuclear clusters and their chemical freeze-out in nuclear collisions

Author

Bugaev, K. A., primary, Vitiuk, O. V., additional, Grinyuk, B. E., additional, Sagun, V. V., additional, Yakovenko, N. S., additional, Ivanytskyi, O. I., additional, Zinovjev, G. M., additional, Blaschke, D. B., additional, Nikonov, E. G., additional, Bravina, L. V., additional, Zabrodin, E. E., additional, Kabana, S., additional, Kuleshov, S. V., additional, Farrar, G. R., additional, Zherebtsova, E. S., additional, and Taranenko, A. V., additional

Published
2020
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47. Non-Smooth Chemical Freeze-Out and Apparent Width of Wide Resonances and Quark Gluon Bags in a Thermal Environment

Author

Bugaev, K. A., Ivanytskyi, A. I., Oliinychenko, D. R., Nikonov, E. G., Sagun, V. V., and Zinovjev, G. M.

Subjects
High Energy Physics::Phenomenology, Nuclear Theory, chemical freeze-out, High Energy Physics::Experiment, width sharpening, Nuclear Experiment, wide resonance enhancement
Abstract

We develop a hadron resonance gas model with the Gaussian width of hadron resonances. This model allows us to treat the usual hadrons and the quark gluon bags on the same footing and to study the stability of the results obtained within different formulations of the hadron resonance gas model. We perform a successful fit of 111 independent hadronic multiplicity ratios measured in nuclear collisions at the center-of-mass energies √SNN = 2.7–200 GeV. We demonstrate also that, in a narrow range of the collision energy √SNN = 4.3–4.9 GeV, there exist the peculiar irregularities in various thermodynamic quantities found at the chemical freeze-out. The most remarkable irregularity is an unprecedented jump of the number of effective degrees of freedom observed in this narrow energy range, which is seen in all realistic versions of the hadron resonance gas model, including the model with the Breit–Wigner parametrization of the resonance width and the one with a zero width of all resonances. Therefore, the developed concept is called the non-smooth chemical freeze-out. We are arguing that these irregularities evidence the possible formation of quark gluon bags. In order to develop other possible signals of their formation, we study the apparent width of wide hadronic resonances and quark gluon bags in a thermal environment. Two new effects generated for the wide resonances and the quark gluon bags by a thermal medium are discussed here: the near-threshold thermal resonance enhancement and the near-threshold thermal resonance sharpening. These effects are also analyzed for the Breit–Wigner width parametrization. It is shown that, if the resonance decay thresholds are located far away from the peak of the resonance mass attenuation, then such a width parametrization leads to a stronger enhancement of the resonance pressure, as compared with the Gaussian one. On the basis of the new effects, we argue that the most optimistic chance to find experimentally the quark gluon bags may be related to their sharpening and enhancement in a thermal medium. In this case, the wide quark gluon bags can appear directly or in decays as narrow resonances that are absent in the tables of elementary particles and have the apparent width about 50–120 MeV and the mass about or above 2.5 GeV., В роботi розвинуто модель адронного резонансного газу з гаусовою шириною резонансiв. Така модель дозволяє розглянути звичайнi адрони та кварк-глюоннi мiшки єдиним чином i вивчити стiйкiсть результатiв, отриманих в рiзних формулюваннях моделi адронного резонансного газу. В цiй роботi проведено успiшний фiт 111 незалежних адронних множинностей, вимiряних в зiткненнях ядер за енергiй в системi центра мас √SNN = 2,7–200 ГеВ. Також показано, що у вузькiй областi енергiй зiткнення 4,3–4,9 ГеВ спостерiгаються незвичайнi нерегулярностi у рiзних термодинамiчних величин, знайдених за хiмiчного фрiзаута. Найбiльш визначною нерегулярнiстю є невiдомий ранiше стрибок числа ефективних степенiв вiльностi в цьому вузькому iнтервалi енергiй, який спостерiгається у всiх реалiстичних версiях моделi адронного резонансного газу, включаючи модель iз брейт–вiгнерiвською параметризацiєю ширини резонансiв та модель iз нульовою шириною всiх резонансiв. Тому розвинута концепцiя названа негладким хiмiчним фрiзаутом. Подано аргументи на користь того, що цi нерегулярностi свiдчать про можливе формування кварк-глюонних мiшкiв. Для того, щоб розвинути iншi можливi сигнали їх формування, нами вивчена видима ширина широких адронних резонансiв та кварк-глюонних мiшкiв. Обмiрковано два нових ефекти, якi генеруються для широких адронних резонансiв та кварк-глюонних мiшкiв термального середовища: бiля-порогове термальне пiдсилення резонансiв та бiляпорогове термальне звуження резонансiв. Також цi ефекти проаналiзовано для брейт–вiгнерiвської параметризацiї ширини та показано, що, коли пороги розпадiв резонансiв знаходяться далеко вiд пiка в розподiлi маси резонансу, то така параметризацiя ширини веде до бiльшого пiдсилення тиску резонанса порiвняно iз гаусовою параметризацiєю ширини. На основi цих ефектiв ми стверджуємо, що найбiльш оптимiстичний шанс експериментально знайти кварк-глюоннi мiшки пов’язаний з їхнiм звуженням та пiдсиленням в термальному середовищi. В цьому випадку кварк-глюоннi мiшки можуть виникнути або в розпадах, як вузькi резонанси, якi вiдсутнi в таблицях елементарних частинок з шириною близько 50–120 МеВ i з масою близько або бiльше 2,5 ГеВ.

Published
2019
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48. Separate Chemical Freeze-Outs of Strange and Non-Strange Hadrons and Problem of Residual Chemical Non-Equilibrium of Strangeness in Relativistic Heavy Ion Collisions

Author

Bugaev, K. A., Oliinychenko, D. R., Sagun, V. V., Ivanytskyi, A. I., Cleymans, J., Mironchuk, E. S., Nikonov, E. G., Taranenko, A. V., and Zinovjev, G. M.

Subjects
Nuclear Theory, chemical freeze-out, High Energy Physics::Experiment, Nuclear Experiment, strangeness enhancement/suppression factor ys, Strangeness Horn, hadron multiplicities
Abstract

We present an elaborate version of the hadron resonance gas model with the combined treatment of separate chemical freeze-outs for strange and non-strange hadrons and with an additional ys factor which accounts for the remaining strange particle non-equilibration. Within the suggested approach, the parameters of two chemical freeze-outs are connected by the conservation laws of entropy, baryonic charge, third isospin projection, and strangeness. The developed model enables us to perform a high-quality fit of the hadron multiplicity ratios measured at AGS, SPS, and RHIC with X2/dof ≃ 0.93. A special attention is paid to a successful description of the Strangeness Horn. The well-known problem of selective suppression of Λ and Ξ hyperons is also discussed. The main result is that, for all collision energies, the ys factor is about 1 within the error bars, except for the center-of-mass collision energy 7.6 GeV, at which we find about 20% enhancement of strangeness. Also we confirm the existence of strong jumps in the pressure, temperature, and effective number of degrees of freedom at the stage of strange particle chemical freeze-out, when the center-of-mass collision energy changes from 4.3 to 4.9 GeV. We argue that these irregularities may signal about the quark-hadron phase transition., Запропоновано покращену версiю моделi адронного резонансного газу, яка розглядає окремий хiмiчний фрiзаут дивних i недивних адронiв в комбiнацiї з додатковим фактором ys, який враховує залишкову хiмiчну нерiвновагу дивних частинок. У рамках запропонованого пiдходу параметри двох хiмiчних фрiзаутiв пов’язанi законами збереження ентропiї, барiонного заряду, третьої проекцiї iзоспiну та дивностi. Розвинута модель дозволила провести високоякiсний фiт вiдношень множинностей адронiв, що вимiрювались на прискорювачах AGS, SPS i RHIC з X2/dof ≃ 0,93. Особливу увагу було придiлено успiшному опису пiка дивностi. Добре вiдому проблему селективного пригнiчення Λ та Ξ гiперонiв також обговорено. Головний результат полягає в тому, що в межах помилок ys фактор дорiвнює одиницi для всiх енергiй зiткнення, крiм енергiї зiткнення в системi центра мас 7,6 ГеВ, за якої знайдено пiдсилення дивностi на 20%. Також виявлено iснування сильних стрибкiв в тиску, температурi та ефективнiй кiлькостi ступенiв вiльностi на стадiї хiмiчногго фрiзаута дивних частинок, коли енергiя зiткнення в системi центра мас змiнюється вiд 4,3 до 4,9 ГеВ. Приведено аргументи на користь того, що цi нерегулярностi можуть бути сигналом кварк-адронного фазового переходу.

Published
2019
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49. Strangeness Enhancement at the Hadronic Chemical Freeze-Out

Author

Sagun, V. V., Oliinychenko, D. R., Bugaev, K. A., Cleymans, J., Ivanytskyi, A. I., Mishustin, I. N., and Nikonov, E. G.

Subjects
ys factor, Nuclear Theory, PACS 25.75.-q, 25.75.Nq, chemical freeze-out, Nuclear Experiment, Strangeness Horn, hadron multiplicities
Abstract

The chemical freeze-out of hadrons created in the high energy nuclear collisions is studied within a realistic version of the hadron resonance gas model. The chemical non-equilibrium of strange particles is accounted via the usualys factor, which gives us an opportunity to perform a high quality fit with x2/dof ≃ 63.5/55 ≃ 1.15 of the hadronic multiplicity ratios measured from the low AGS to the highest RHIC energies. In contrast to the previous findings, we observe the strangeness enhancement at low energies instead of a suppression. In addition, the performedys fit allows us to achieve the highest quality of the Strangeness Horn description with x2/dof = 3.3/14. For the first time, the top point of the Strangeness Horn is perfectly reproduced, which makes our theoretical horn as sharp as an experimental one. However, the ysfit approach does not sizably improve the description of the multistrange baryons and antibaryons. Therefore, an apparent deviation of the multistrange baryons and antibaryons from the chemical equilibrium requires a further explanation., На основi реалiстичної версiї моделi адронного резонансного газу дослiджено хiмiчний фрiзаут адронiв, утворених у зiткненнях ядер при високих енергiях. Хiмiчна нерiвновага дивних частинок враховується за допомогою введенняys фактора, який дозволяє здiйснити високоякiсний фiт вiдношень адронних множинностей, вимiряних в iнтервалi енергiй вiд найнижчих енергiй AGS до найвищих енергiй RHIC, iз x2/dof ≃ 63,5/55 ≃ 1,15. На вiдмiну вiд попереднiх результатiв, при низьких енергiях ми спостерiгаємо посилення дивностi, а не ї ї пригнiчення. Крiм того, за допомогою проведеного фiтування параметраys вдалося досягнути найякiснiшого опису Пiка Дивностi iз x2/dof = 3,3/14. Вперше вдалося вiдтворити найвищу точку Пiка Дивностi, що робить теоретичний Пiк настiльки ж гострим, як i експериментальний. Проте, проведене фiтуванняys не призвело до суттєвого покращення опису мультидивних барiонiв та антибарiонiв. Тому, видиме вiдхилення мультидивних барiонiв та антибарiонiв вiд хiмiчної рiвноваги вимагає додаткового пояснення.

Published
2018
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50. Separate Chemical Freeze-Out of Strange Particles with Conservation Laws

Author

Oliinychenko, D. R., Sagun, V. V., Ivanytskyi, A. I., and Bugaev, K. A.

Subjects
strange hadrons, High Energy Physics::Phenomenology, Nuclear Theory, Hadron Resonance Gas Model with the multicomponent hard-core repulsion, hadron multiplicity ratios, PACS 25.75.-q, 25.75.Nq, chemical freeze-out, High Energy Physics::Experiment, Nuclear Experiment, Strangeness Horn
Abstract

The Hadron Resonance Gas Model with two freeze-outs connected by the conservation laws is considered. We are arguing that the chemical freeze-out of strange hadrons should occur earlier than the chemical freeze-out of non-strange hadrons. The hadron multiplicities measured in the heavy ion collisions for the center-of-mass energy range 2.7–200GeV are described well by such a model. Based on a success of such an approach, a radical way to improve the Hadron Resonance Gas Model performance is suggested. Thus, we suggest to identify the hadronic reactions that freeze-out noticeably earlier or later that most of the others reactions (for different collision energies they may be different) and to consider a separate freeze-out for them., Розглянуто модель адронного резонансного газу iз двома фрiзаутами, що пов’язанi мiж собою законами збереження. Наведено аргументи на користь того, що хiмiчний фрiзаут дивних адронiв має вiдбуватися ранiше, анiж хiмiчний фрiзаут недивних адронiв. За допомогою представленої моделiвиконано високоякiсний фiт адронних множинностей, вимiряних у зiткненнях важких iонiв при енергiях зiткнення в системi центра мас вiд 2,7 до 200 ГеВ. Ґрунтуючись на успiху даного пiдходу, нами запропоновано спосiб радикального вдосконалення моделi адронного резонансного газу. Для цього ми пропонуємо визначати адроннi реакцiї, якi припиняються ранiше або пiзнiше, анiж бiльшiсть iнших реакцiй (для рiзних енергiй зiткнень вони можуть бути рiзними), та розглядати для цих реакцiй вiдокремленi фрiзаути.

Published
2018
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