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15-07E |
Spectral properties of four-time fermionic Green's functions
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A.M. Shvaika |
05.30.-d |
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15-06U |
Free energy of the low-density gas in the weakly nonequilibrium heat-conduction steady state
|
Y.A. Humenyuk |
05.70.Ln 51.30.+i 44.10.+i |
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15-05U |
Spin-1/2 $J_1-J_2$ Heisenberg model on frustrated rectangular lattice within Jordan-Wigner fermionization. Mean-field approach for the collinear antiferromagnetic order
|
O.R. Baran T.M. Verkholyak |
75.10.Jm |
|
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15-04U |
Semi-automatic algorithm for terms identification in scientific publications
|
O. Mryglod |
01.30.-y 02.50.-r 07.05.Kf |
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15-03U |
The influence of the Heisenberg exchange interaction anisotropy on magnetization process of the frustrated diamond chain in a strong magnetic field
|
O.M. Krupnitska |
75.10.Jm |
|
|
15-02U |
Surface structures in a model of carbon monoxide oxidation reaction
|
I.S. Bzovska I.M. Mryglod |
82.40.Bj 82.45.Jn |
|
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15-01U |
Thermodynamical properties of spin-1/2 J1-J2 Heisenberg model on frustrated rectangular lattice within Jordan-Wigner fermionization and mean-field approach. The Néel order
|
O.R. Baran T.M. Verkholyak |
75.10.Jm |
|
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14-12E |
Concerning a calculation of the grand partition function of a fluid model
|
M.P. Kozlovskii O.A. Dobush R.V. Romanik |
51.30.+i 64.60.fd |
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14-11U |
Gradient contributions to thermodynamic quantities of a low-density gas in the heat-conduction weakly nonequilibrium stationary state
|
Y.A. Humenyuk |
05.70.Ln 51.30.+i 44.10.+i |
|
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14-10E |
Nonequilibrium dynamical mean-field theory for the charge-density-wave phase of the Falicov-Kimball model
|
O.P. Matveev J.K. Freericks A.M. Shvaika |
71.10.Fd 71.45.Lr 72.20.Ht |
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14-09U |
Incommensurate single-angle spiral orderings of classical Heisenberg spins on zigzag ladder lattices
|
Yu.I. Dublenych |
05.50.+q 75.10.Hk 75.25.-j |
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14-08E |
Bose-Fermi-Hubbard model in the heavy fermion limit
|
I.V. Stasyuk V.O. Krasnov |
71.10.Fd 71.38 |
|
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14-07U |
Description of intercalated layered structures in the approach of the periodic Anderson model
|
I.V. Stasyuk O.V. Velychko |
03.75.Hh 03.75.Lm 64.70.Tg |
|
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14-06U |
Resonance tunnelling in the superlattices of semiconductor structures: experiment and theory (review)
|
O.V. Velychko |
03.75.Hh 03.75.Lm 64.70.Tg |
|
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14-05E |
Chain of kinetic equations for the distribution functions of particles in simple liquid taking into account nonlinear hydrodynamic fluctuations
|
P.A. Hlushak M.V. Tokarchuk |
05.20.Dd 05.40.-a 05.60.Cd |
|
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14-04U |
Universal shape properties of a long flexible polymer chain in the dissipative particle dynamics method
|
O.Yu. Kalyuzhnyi Ja.M. Ilnytskyi Yu.V. Holovatch |
61.25.Hq 61.20.Ja 89.75.Da |
|
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14-03U |
Statistical theory of reaction-diffusion processes intercalation of ions in the “electrolyte – electrode”. 1. Generalized transport equations Nernst–Planck type
|
P.P. Kostrobii B.M. Markovych R.M. Tokarchuk M.V. Tokarchuk Yu.I. Chernomorets |
82.45.-h 82.45.Fk 82.45.Gj 71.20.Tx |
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14-02U |
Semi-infinite jellium: thermodynamic potential, chemical potential, surface energy
|
P.P. Kostrobij B.M. Markovych |
73.20.-r 71.10.-w 71.45.-d |
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14-01E |
Simple-cubic-lattice spin-1/2 Heisenberg model within Green-function method
|
O. Menchyshyn T. Krokhmalskii O. Derzhko |
75.10.Jm |
|
|
13-13E |
Fermion spectrum of Bose-Fermi-Hubbard model in the phase with Bose-Einstein condensate
|
I.V. Stasyuk V.O. Krasnov |
71.10.Fd 71.38 |
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13-12U |
Investigation of spectral features of boson spectrum of two-dimensional optical lattices with graphene-type structures. II. SF-phase
|
I.V. Stasyuk O.V. Velychko I.R. Dulepa |
03.75.Hh 03.75.Lm 64.70.Tg 71.35.Lk 37.10.Jk 67.85.-d |
|
|
13-11U |
Investigation of spectral features of boson spectrum of two-dimensional optical lattices with the graphene type structure
|
I.V. Stasyuk I.R. Dulepa O.V. Velychko |
66.30.Dn 66.10.Ed |
|
|
13-10U |
One-particle spectral densities and equilibrium states of one-dimensional ion conductor
|
R.Ya. Stetsiv |
75.10.Pq 66.30.Dn 03.75.Lm |
|
|
13-09E |
Gas-liquid phase coexistence in binary ionic fluids with screened Coulomb interactions. The effect of an interaction range on the crossover temperature
|
O.V. Patsahan |
05.70.Fh 64.60.De 64.60.F- |
|
|
13-08U |
What is the universality class of the phase transition into superconducting/superfluid state?
|
Yu. Holovatch |
01.75.+m 05.50.+q 89.75.-k |
|
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13-07U |
Integral brackets and pair-scattering functions of the kinetic theory for dense gaseous mixtures with multistep interaction
|
Y.A. Humenyuk M.V. Tokarchuk |
05.20.Dd 51.10.+y 05.60.Cd 05.60.-k |
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13-06U |
Study of electronic states in highly anisotropic structures with stage ordering
|
I.V. Stasyuk O.V. Velychko |
03.75.Hh 03.75.Lm 64.70.Tg |
|
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13-05U |
On the comparison of extensive and intensive measures of scientific group efficiency
|
O. Mryglod R. Kenna Yu. Holovatch B. Berche |
01.30.-y 02.50.-r |
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13-04U |
An interaction of scalar particles via tachyon field
|
I. Zagladko A. Duviryak |
11.10.Ef 11.10.Lm |
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|
13-03E |
The Ginzburg temperature of ionic fluids: the effect of Coulomb interactions
|
O.V. Patsahan |
05.20.-y 05.70.Fh 64.60.De 64.60.F- |
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