Formation of Relativistic Non-Viscous Fluid in Central Collisions of Protons with an Energy of 0.8 Tev with Photoemulsion Nuclei
American Journal of Modern Physics
Volume 2, Issue 2, March 2013, Pages: 68-70
Received: Mar. 11, 2013;
Published: Mar. 10, 2013
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U. U. Abdurakhmanov, Physical-Technical Institute of Uzbek Academy of Science, Tashkent, Uzbekistan
V. V. Lugovoi, Physical-Technical Institute of Uzbek Academy of Science, Tashkent, Uzbekistan
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By the methods of mathematical statistics we test a qualitative prediction of the old theory of relativistic hy-drodynamics non-viscous liquid which can be used as a part of the process of hadronization within the modern hydrody-namical approach for the description of the quark-gluon plasma. Experimental data on the interaction of protons with the energies of 0.8 TeV with emulsion nuclei are used. Results do not contradict the formation of relativistic ideal non-viscous liquid in rare central collisions.
Proton, Photoemulsion, Central Collisions, Hadronization, Parametrically Invariant Variables, Non-Viscous Fluid
To cite this article
U. U. Abdurakhmanov,
V. V. Lugovoi,
Formation of Relativistic Non-Viscous Fluid in Central Collisions of Protons with an Energy of 0.8 Tev with Photoemulsion Nuclei, American Journal of Modern Physics.
Vol. 2, No. 2,
2013, pp. 68-70.
I.M. Dremin and A.V. Leonidov, "The quark-gluon me-dium", Uspekhi Fizicheskikh Nauk, Vol. 180, No.11, 2010, pp. 1167 - 1196.
E. Shuryak,"Physics of Strongly coupled Quark-Gluon Plasma", Prog. Part. Nucl. Phys., Vol. 62, 2009, pp.48-124; arXiv:0807.3033v2 [hep-ph].
L.D. Landau, "About multiple production of part-icles in collisions of fast particles", Izvestija AN SSSR, Vol.17 , 1953, pp.51-64.
S.Z. Belenkiy and L.D. Landau, "The hydrodynamic theory of multiparticle production", Uspekhi Fizi-cheskikh Nauk, Vol.56, No.3-4, 1955, pp.309-348.
A. Abduzhamilov, L.M. Barbier, L.P. Chernova et all., "Charged-particle multiplicity and angular distributions in proton-emulsion interactions at 800 GeV", Phys. Rev. D Part Fields, Vol. 35, No.1, 1987, pp.3537-3540.
K.G. Gulamov, S.I. Zhokhova, V.V. Lugovoi, et all., "Pseu-dorapidity Configurations in Collisions between Gold Nuclei and Track-Emulsion Nuclei.", Phys.Atom.Nucl. Vol.73, 2010, pp. 1185-1190 ; Yad.Fiz. Vol.73, 2010, pp. 1225-1230.
G. Kramer, "The mathematical methods of statistics", IL, Moscow, 1948, pp.1-648.