I. I. Royzen scite author profile

I. I. Royzen

5Publications

53Citation Statements Received

137Citation Statements Given

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134

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P.N. Lebedev Physical Institute of the Russian Academy of Sciences

Publications

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Theoretical Approach to Alignment Phenomenon

Royzen

1994

Mod. Phys. Lett. A

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An explanation of the puzzling alignment effect observed in cosmic ray experiments is suggested Few years ago the observation has been made [1] in cosmic ray experiments that the alignment of the main energy fluxes along a straight line in target (transverse) plane exceeds significantly the background level. More precisely, at superhigh energies of initial particle (E 0 ≥ 10 4 TeV) the secondary particle superfamilies detected by deep lead X-ray emulsion chamber appeared to be situated almost along straight line in target plane (Fig.1). The coplanar scattering of such a type was so surprising that an attempt has been made to revise the result but instead they were confirmed with much better confidence level [2]. The analysis of the alignment effect for 74 high energy γ-families induced by hadrons above and within the chamber has been carried out. Their energies energies are selected to be E γ = 100 ÷ 5000 TeV (hadron energies being restored, accounting that the energy of induced γ-family is about 1/3 of the hadron energy it is originated from). This analysis suggested that superfamily production happened predominantly rather low above the chamber (at the altitude H ≃ 2km, since it seemed that nuclearelectromagnetic cascade development would blur alignment, if several interactions contributed). It confirmed a coplanar scattering and scaling-like fragmentation spectrum of energy distinguished cores. The alignment parameter λ, −0.5 ≤ λ = m i =j =k cos(2φ ijk ) m(m − 1)(m − 2) ≤ 1,

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QCD vacuum and hypothesis of the appearance of quark matter in the interior of stars

Royzen

2009

Phys. Atom. Nuclei

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“Free” constituent quarks and dilepton production in heavy-ion collisions

2002

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An approach is suggested, invoking vitally the notion of constituent massive quarks (valons) which can survive and propagate rather than hadrons (except of pions) within the hot and dense matter formed below the chiral transition temperature in course of the heavy ion collisions at high energies. This approach is shown to be quite good for description of the experimentally observed excess in dilepton yield at masses 250 MeV ≤ M ee ≤ 700 MeV over the prompt resonance decay mechanism (CERES cocktail) predictions. In certain aspects, it looks to be even more successful, than the conventional approaches: it seems to match the data somewhat better at dilepton masses before the two-pion threshold and before the ρ-meson peak as well as at higher dilepton masses (beyond the φ-meson one). The approach implies no specific assumptions on the equation of state (EOS) or peculiarities of phase transitions in the expanding nuclear matter.

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Color deconfinement and subhadronic matter: phase states and the role of constituent quarks

Royzen¹,

Feinberg²,

Chernavskaya³

2004

Phys.-Usp.

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Contents 1. Introduction 2. Retrospect, heuristic considerations, and QCD 3. The phase plane: the current outlook 4. Theoretical models 4.1 Lattice calculations; 4.2 Bag model; 4.3 Interim results: what do the theoretical models teach us? 5. Man-made subhadronic matter? 5.1 A general view of the process; 5.2 The direct phase transition scenario, QGP -> H: pro and contra; 5.3 The scenario with two phase transitions, QGP -> QπK -> H: advantages and problems; 5.4 Dilepton (e + e~-pairs) production Concluding remarks ReferencesAbstract. Major aspects of the subhadronic state of nuclear matter populated with deconfined color particles are reviewed. At high and even at rather low nuclear collision energies, this is expected to be a short-term quark-gluon plasma (QGP), but, seemingly, not only this. Emphasis is put on the self-consistency requirement that must be imposed on any phenomenological description of the evolution of a hot and dense nuclear medium as it expands (cools down) to the point where the final scattering of secondary particles starts. The view is argued and analyzed that massive constituent quarks should then play a major role at a certain cooling stage. A hypothesis is discussed regarding the existence of an intermediate stage (a valon plasma), allowing a consistent explanation of data on the mid-rapidity yields of various kinds of hadrons and direct dileptons (e + e -pairs) in high-energy heavy-ion collisions.

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A dynamical scheme for leading trajectory and theory of fireballs

et al. 1969

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I. I. Royzen

Theoretical Approach to Alignment Phenomenon

QCD vacuum and hypothesis of the appearance of quark matter in the interior of stars

“Free” constituent quarks and dilepton production in heavy-ion collisions

Color deconfinement and subhadronic matter: phase states and the role of constituent quarks

A dynamical scheme for leading trajectory and theory of fireballs

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