Відділ астрофізики та елементарних частинок
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  4. S. Vilchinskii, O. Sobol, E.V. Gorbar, and I. Rudenok, “Magnetogenesis during inflation and preheating in the Starobinsky model”, (2017) Phys. Rev. D 95, 083509.
  5. E.V. Gorbar, D.O. Rybalka, and I.A. Shovkovy, “Second-order dissipative hydrodynamics for plasma with chiral asymmetry and vorticity”, (2017) Phys. Rev. D 95, 096010.
  6. V.E. Kuzmichev, V.V. Kuzmichev. “Behaviour of the gravitational system close to the Planck epoch”, Ukr. J. Phys., 2017, Vol. 62, No. 6, p. 545-553.
  7. V.E. Kuzmichev, V.V. Kuzmichev. “The matter-energy intensity distribution in a quantum gravitational system”, Quantum Stud.: Math. Found. (2017).
  8. S.S. Mishra, V. Sahni, Yu. Shtanov, “Sourcing dark matter and dark energy from α-attractors”, JCAP , No. 06, 045 (2017)
  9. Junji Jia, P.K. Pyatkovskiy, E.V. Gorbar, V.P. Gusynin. “Broken symmetry states in bilayer graphene in electric and in-plane magnetic fields”, (2017) Phys. Rev. B 95, 045410.
  10. V.Yu. Tsaran, A.V. Kavokin, S.G. Sharapov , A.A. Varlamov,V.P. Gusynin. “Entropy spikes as a signature of Lifshitz transitions in the Dirac materials”, (2017) Scientific Reports, 7, 10271.
  11. D.O. Oriekhov, O.O. Sobol, E.V. Gorbar, and V.P. Gusynin. “Coulomb center instability in bilayer graphene”, (2017), Phys. Rev. B 96, 165403.
  12. E.V. Gorbar, V.A. Miransky, I.A. Shovkovy, and P.O. Sukhachov, “Consistent chiral kinetictheory in Weyl materials: chiral magnetic plasmons”, (2017) Phys. Rev. Lett. 118, 127601.
  13. E.V. Gorbar, V.A. Miransky, I.A. Shovkovy, and P.O. Sukhachov, “Chiral magnetic plasmons in anomalous chiral matter”, (2017) Phys. Rev. B 95, 115402.
  14. E.V. Gorbar, V.A. Miransky, I.A. Shovkovy, and P.O. Sukhachov, “Pseudomagnetic helicons”, (2017) Phys. Rev. B 95, 115422.
  15. E.V. Gorbar, V.A. Miransky, I.A. Shovkovy, and P.O. Sukhachov, “Second-order chiral kinetictheory: chiral magnetic and pseudomagnetic waves”, (2017) Phys. Rev. B 95, 205141.
  16. E.V. Gorbar, V.A. Miransky, I.A. Shovkovy, and P.O. Sukhachov, “Pseudomagnetic lens as chirality splitter in Weyl materials”, (2017) Phys. Rev. B 95, 214114(R).
  17. E.V. Gorbar, V.A. Miransky, I.A. Shovkovy, and P.O. Sukhachov, “Origin of the Bardeen–Zumino current in lattice models of Weyl semimetals”, (2017) Phys. Rev. B 96, 085130.
  18. E.V. Gorbar, V.A. Miransky, I.A. Shovkovy, and P.O. Sukhachov, “Wigner function and kineticphenomena for chiral plasma in a strong magnetic field”, (2017) JHEP 1708, 103.
  19. E.V. Gorbar, V.A. Miransky, I.A. Shovkovy, and P.O. Sukhachov, “Chiral response in lattice models of Weyl semimetals”, (2017) Phys. Rev. B 96, 125123.
  20. E.V. Gorbar, V.A. Miransky, I.A. Shovkovy, and P.O. Sukhachov, “Anomalous thermoelectricphenomena in lattice models of Weyl semimetals”, (2017) Phys. Rev. B 96, 155138.
  21. M. Tomchenko, “Thermodynamics of a one-dimensional system of point bosons: comparison of the traditional approach with a new one”, J. Low Temp. Phys. 187, (2017) pp. 251-266.
  22. M. Tomchenko, “Uniqueness of the solution of the Gaudin's equations, which describe a one-dimensional system of point bosons with zero boundary conditions”, (2017) J. Phys. A 50, 055203.
Відділ фізики високих густин енергії
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  2. J. Adam, G. Zinovjev et al. and ALICE Collaboration. “Measurement of azimuthal correlations of D mesons and charged particles in pp collisions at sqrt{s}=7 TeV and p-Pb collisions at sqrt{s_{NN}}=5.02 TeV. Euro. Phys. J. C 77 (2017)245; arXiv:1605.06963 [nucl-ex].
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  4. J. Adam, G. Zinovjev et al. and ALICE Collaboration. “Determination of the event collision time with the ALICE detector at the LHC”. Eur. Phys. J. Plus 132 (2017) 99; arXiv:1610.03055 [physics.inst-det].
  5. J. Adam, G. Zinovjev et al. and ALICE Collaboration. “W and Z boson production in p-Pb collisions at sqrt(s_NN) = 5.02 TeV”. JHEP 02 (2017) 077; arXiv:1611.03002 [nucl-ex].
  6. J. Adam, G. Zinovjev et al. and ALICE Collaboration. “Energy dependence of forward-rapidity J/ψ and ψ(2S) production in pp collisions at the LHC”. Euro. Phys. J. C 77 (2017) 392; arXiv:1702.00557 [nucl-phys].
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  8. J. Adam, G. Zinovjev et al. and ALICE Collaboration. “Measurement of electrons from beauty hadron decays in p-Pb collisions at sqrt(s_NN)=5.02 TeV and Pb-Pb collisions at sqrt(s_NN)=2.76 TeV”. JHEP 07(2017)052; arXiv:1609.03898 [nucl-ex].
  9. J. Adam, G. Zinovjev et al. and ALICE Collaboration. “Measurement of the production of high p_T electrons from heavy-flavor hadron decays in Pb-Pb collisions at sqrt(s_NN) = 2.76 TeV”. Phys.Lett. B771 (2017); arXiv:1609.07104 [nucl-ex].
  10. J. Adam, G. Zinovjev et al. and ALICE Collaboration. “Evolution of the longitudinal and azimuthal structure of the near-side jet peak in Pb-Pb collisions at sqrt(s_NN)=2.76 Tev”. Phys. Rev. C96 (2017) 034904; arXiv:1609.06667 [nucl-ex].
  11. J. Adam, G. Zinovjev et al. and ALICE Collaboration. “Flow dominance and factorization of transverse momentum correlations in Pb--Pb collisions at the LHC”. Phys. Rev. Lett. 118 (2017) 162302; arXiv:1702.02665 [nucl-ex]
  12. J. Adam, G. Zinovjev et al. and ALICE Collaboration. “Production of Sigma(1385)^{pm} and Xi(1530)^0 in p-Pb collisions at sqrt{s_{rm NN}} = 5.02 TeV”. Euro. Phys. J C77 (2017)389; arXiv:1701.07797 [nucl-ex].
  13. J. Adam, G. Zinovjev et al. and ALICE Collaboration. “Azimuthally differential pion femtoscopy in Pb-Pb collisions at sqrt(s_NN) = 2.76 TeV with ALICE at the LHC”. Phys. Rev. Lett. 118 (2017) 222301; arXiv:1702.01612 [nucl-ex].
  14. J. Adam, G. Zinovjev et al. and ALICE Collaboration. “Searches for transverse momentum dependent flow vector fluctuations in Pb-Pb and p-Pb collisions at the LHC”. JHEP 09 (2017) 032.
  15. S. Acharya, J.Adam, G. Zinovjev et al. and ALICE Collaboration “Insight into particle production mechanisms via angular correlations in pp colisions at sqrt{s}=7~TeV”. Euro. Phys. J C77 (2017) 569; arXiv:1612.08975 [nucl-ex].
  16. J. Adam, G. Zinovjev et al. and ALICE Collaboration. “Measurement of D-meson production at mid-rapidity in pp collisions at sqrt{s}=7 TeV”. Euro. Phys. J C77 (2017)50; arXiv:1702.00766 [nucl-ex]
  17. J. Adam, G. Zinovjev et al. and ALICE Collaboration. “K*0 and phi- meson production at high transverse momentum in pp and Pb-Pb collisions at sqrt{s_{NN}} = 2.76 TeV”. Phys. Rev. C95 (2017) 064606; arXiv:1702.00555 [nucl-ex].
  18. S. Acharya, J. Adam, G. Zinovjev et al. and ALICE Collaboration. “Production of muons from heavy-flavour decays in p-Pb collisions at sqrt {s_{rm NN}} = 5.02 TeV”. Phys. Let. B770 (2017) 459-472; arXiv:1702.01479 [nucl-ex].
  19. S. Acharya, J. Adam, G. Zinovjev et al. and ALICE Collaboration.”First measurement of jet mass in Pb-Pb and p-Pb collisions”. Phys. Lett. B77 (2018) 249; arXiv:1702.00804 [nucl-ex].
  20. J. Adam, G. Zinovjev et al. and ALICE Collaboration. “Energy dependence of forward-rapidity J/psi and psi(2S)production in pp collisions at the LHC”. Eur. Phys. J. C77 (2017) 392; arXiv:1702.00557 [nucl-ex].
  21. J. Adam, G. Zinovjev et al. and ALICE Collaboration. “phi production at forward rapidity in p-Pb collisions at sqrt{s_{NN}}=5.02 TeV and in Pb-Pb collisions at sqrt{s_{NN}}=2.76 TeV”. Phys. Let. B768 (2017) 203-217; arXiv:1506.09206 [nucl-ex].
  22. J. Adam, G. Zinovjev et al. and ALICE Collaboration.”Charged-particle multiplicity distributions over wide pseudorapidity range in proton-proton collisions at mathbf{sqrt{s}=} 0.9, 7 and 8 TeV”. Euro. Phys.J. C77 (2017) 852; arXiv:1708.01435 [nucl-ex].
  23. J. Adam, G. Zinovjev et al. and ALICE Collaboration. “Measurement of deuteron spectra and elliptic flow in Pb--Pb collisions at sqrt{s_{mathrm{NN}}} = 2.76 TeV at the LHC”. Euro. Phys. J. C77 92017) 658; arXiv:1707.07304 [nucl-ex].
  24. S. Acharya, J. Adam, G. Zinovjev et al. and ALICE Collaboration. “Anomalous broadening of the near-side jet peak in Pb-Pb collisions at sNN = 2.76 TeV”. Phys.Rev.Lett. 119 (2017) 102301; arXiv:1609.06643.
  25. S. Acharya, J. Adam, G. Zinovjev et al. and ALICE Collaboration. “Linear and non-linear flow modes in Pb-Pb collisions at sqrt{s_{rmNN}} = 2.76 TeV”. Phys. Lett. B773 (2017) 68; arXiv:1705.04377 [nucl-ex].
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  28. J. Adam, G. Zinovjev et al. and ALICE Collaboration. “Centrality dependence of the pseudorapidity density distribution for charged particles in Pb-Pb collisions at sqrt(s_NN)=5.02 TeV”. Phys. Lett. B772 (2017) 567-577; arXiv:1612.08886 [nucl-ex].
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  30. K. Bugaev, V. Sagun, A. Ivanytskyi, I. Yakimenko, E. Nikonov, A. Taranenko, G. Zinovjev. “Going beyond the second virial coefficient in the hadron resonance gas model”, Nucl. Phys. A 970, (2017) 133-155.
  31. Ivanytsky, K. Bugaev, E. Nikonov, E.-M. Ilgenfritz, D. Oliinychenko, V. Sagun, I. Mishustin,V. Petrov, G. Zinovjev. “Physical properties of Polyakov loop geometrical clusters in SU(2) gluodynamics”,Nucl. Phys. A960 (2017), 90-113.
  32. R. Poberezhnyuk, V. Vovchenko, D. Anchishkin, M. Gorenstein. “Quantum van der Waals and Walecka models of nuclear matter”. Int. J. Mod. Phys. E 26 (2017) 1750061; arXiv:1708.05605 [nucl-th].
  33. R. Poberezhnyuk, M. Gazdzicki, M. Gorenstein. “Open charm production in central Pb+Pb collisions at the CERN SPS: statistical model estimates”. Acta Phys. Polon. B 48 (2017) 1461;arXiv:1708.04491 [nucl-th].
  34. V. Vovchenko, A. Motornenko, Paolo Alba, M. Gorenstein, L. Satarov, H. Stoecker. “Multicomponent van der Waals equation of state: Applications in nuclear and hadronic physics”. Phys. Rev. C 96 (2017) 045202; arXiv:1707.09215 [nucl-th].|
  35. Magner, M. Gorenstein, U. Grygoriev.“Viscosity of a classical gas: The rare-collision versus the frequent-collision regime”. Phys. Rev. E 95 (2017) 052113.
  36. L. Satarov, M. Gorenstein, V. Motornenko, V. Vovchenko, I. Mishustin, H. Stoecker, “Bose-Einstein condensation and liquid-gas phase transition in alpha-matter”. J. Phys. G 44 (2017) 125102; arXiv:1704.08039 [nucl-th].
  37. L. Satarov, V. Vovchenko, P. Alba, M .Gorenstein, H. Stoecker, “New scenarios for hard-core interactions in a hadron resonance gas”. Phys. Rev. C 95 (2017) 024902;arXiv:1610.08753 [nucl-th].
  38. Motornenko, M. Gorenstein. “Cumulative pion production via successive collisions in nuclear medium”. Acta Phys. Polon. B 48 (2017) 681.
  39. V. Vovchenko, D. Anchishkin, M. Gorenstein, R. Poberezhnyuk, H. Stoecker. “Critical fluctuations in models with van der Waals interactions”. Acta Phys. Polon. B 48 (2017) 753; arXiv:1610.01036 [nucl-th].
  40. V. Vovchenko, M. Gorenstein, Horst Stoecker. “van der Waals Interactions in Hadron Resonance Gas: from nuclear matter to lattice QCD”. Phys. Rev. Lett. 118 (2017) 182301.
  41. V. Begun, V. Vovchenko, M. Gorenstein. “Updates to the p+p and A+A chemical freeze-out lines from the new experimental data”. J. Phys. Conf. Ser. 779 (2017) no.1, 012080; arXiv:1609.04827 [nucl-th].
  42. M. Gorenstein. “Critical point”. Acta Phys. Polon. 48 (2017) 851.
  43. V. Begun. V. Vovchenko, M. Gorenstein. “Surprises for ther chemical freeze-out lines in p+p and A+A collisions”. Acta Phys. Polon. B 48 (2017) 467.
  44. V. Shapoval, P. Braun-Munzinger, Yu. Sinyukov. “K∗(892) and φ(1020) production and their decay into the hadronic medium at the Large Hadron Collider”. Nucl. Phys. A 968, (2017) 391–402.
  45. Yu. Sinyukov, V. Shapoval, V. Naboka, “The K* and phi resonances observability at the top Relativistic Heavy Ion collider energy”. ISSN 2408-9419. Вісник Дніпропетровського університету. Серія ≪Фізика. Радіоелектроніка≫. Вип. 23(2) Т.24, 19 – 24 ( 2017).
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  47. S. Akkelin. “Hot origin of the Little Bang“. Eur. Phys. J. A53 (2017), 232.
  48. V. Sagun, Ilı́dio Lopes. “Neutron stars: A novel equation of state with induced surface tension”. APJ 850 (2017) 75. arXiv: 1709.07898 [astro-ph].
  49. S. Bekh, A. Kobushkin, E. Strokovsky. “Nucleon momentum distributions in 3He and three-body interactions”. Ukr. J. Phys. 62 (2017) 927-935.
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Відділ теорії квантових процесів у наносистемах
  1. А.Г. Загородній, Л.М. Христофоров. “Міграція квантової частинки ланцюжком з пастками: квантові виходи захоплення”, Доповіді НАН України, 2017, No. 1, p. 44-51.
  2. М.І. Григорчук. “Релаксація енергії зв’язку електронів з фононами в металах”, Металофізика і Найновіші Технології, 2017, Т. 39, № 11, с. 1411-1418.
  3. С.П. Репецький, І.Г. Вишивана, С.П. Кручинін та ін. “Вплив адсорбованих атомів калію на енергетичний спектр графену”, Металофізика і Найновіші Технології, 2017, Т. 39, № 8, с. 1017–1022.
  4. V.I. Teslenko. “Fourth-order differential equation for a two-stage absorbing Markov chain with a stochastic forward transition probability”, Ukr. J. Phys., 2017, Vol. 62, No. 4, p. 349-361.
  5. E.G. Petrov, V.O. Leonov, Ye.V. Shevchenko. “Bipolar and unipolar electrofluorescence in a molecular diode”, JETP Letters, 2017, Vol. 105, No. 2, p. 89-97.
  6. E.G. Petrov, V.O.Leonov, Ye.V. Shevchenko. “Electrofluorescence polarity in a molecular diode”, JETP, 2017, Vol. 125, No. 5, p. 856-874.
  7. L.N. Christophorov, A.G. Zagorodny. “Peculiarities of migration and capture of a quantum particle in a chain with traps”, Chem. Phys. Lett., 2017, Vol. 682, p. 77-81.
  8. N.I. Grigorchuk. “Estimation of electron temperature in heated metallic nanoparticle”, Condensed Matter Physics, 2017, Vol. 20, No. 4, p. 43703 (7 p.)
  9. A. Khodko, V. Khomenko, Y. Shynkarenko, O. Mamuta, O. Kapitanchuk, D. Sysoiev, N. Kachalova, T. Huhn, S. Snegir. “Ultrafast ring-closing reaction dynamics of a photochromic furan-based difurylethene”, Chem. Phys. Lett., 2017, Vol. 669, p. 156-160.
  10. М.І. Григорчук, “Золоте ірраціональне число”, Світогляд, 2017, № 6, с. 41-60.
  11. S. Kruchinin; Problems and solutions in special relativity and electromagnetism. – /Bogolyubov Institute for Theoretical Physics NAS Ukraine/.– World Scientific, 2017. – 148 p. (n/d). – Copies: n/d. – Hardcover ISBN 978-981-3227-26-2 ; Softcover ISBN 978-981-3227-27-9. (Textbook)
Відділ математичних методів в теоретичній фізиці
  1. A.V. Zolotaryuk. Families of one-point interactions resulting from the squeezing limit of the sum of two- and three-delta-like potentials. J. Phys. A: Math. Theor., 2017, 50, 225303 (19pp).
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  4. T. Skrypnyk, Separation of variables in anisotropic models and non-skew-symmetric elliptic r-matrices, Letters in Mathematical Physics, V. 107, No 5, (2017), p.793-812.
  5. T. Skrypnyk, Separation of variables in anisotropic models: anisotropic Rabi and elliptic Gaudin model in an external magnetic field, J. Phys. A: Math. Theor., 50, 325206 (2017).
  6. M.A. Bershtein, A.I. Shchechkin, Backlund transformation of Painleve III (D8) tau function, J. Phys. A: Math. Theor. 50 (2017) 115205, 28 pages.
  7. M.A. Bershtein, A.I. Shchechkin, q-deformed Painleve tau function and q-deformed conformal blocks, J. Phys. A: Math. Theor. 50 (2017) 085202, 21 pages.
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Відділ теорії нелінійних процесів в конденсованих середовищах
  1. M.I. Sloika, D.D. Sheka, V.P. Kravchuk, O.V. Pylypovskyi, Yu. Gaididei Geometryinducedphase transitions in magnetic spherical shell, Journal of Magnetism and Magnetic Materials 443, (2017) 404-412.
  2. Yu. Gaididei, A. Goussev, V.P. Kravchuk, O.V. Pylypovskyi, J.M. Robbins, D.D. Sheka, V. Slastikov, S. Vasylkevych Magnetization in narrow ribbons: curvature effects, Journal of Physics A: Mathematical and Theoretical 50, (2017) 385401.
  3. O.O. Vakhnenko. Semi-discrete integrable nonlinear Schrödinger system with background-controlled inter-site resonant coupling. J. Nonlin. Math. Phys., 2017, 24, No 02, 250-302.
  4. O.O. Vakhnenko. Distinctive features of the integrable nonlinear Schrödinger system on a ribbon of triangular lattice. Ukr. J. Phys, 2017, 62, No 03, 271-282.
  5. L. Malysheva. “Spectral problem for graphene fragments and polyenes: An analytic approach”, Phys. Status Solidi B, 254, issue 6, 2017, DOI:10.1002/pssb.201600773.
  6. A. Onipko and L. Malysheva. “Electron Spectrum of Graphene Macromolecule Revisited”, Phys. Status Solidi B, 2017, DOI: 10.1002/pssb.201700248.
  7. С.Н. Волков. “DNA polymorphism as a tool for geneticin formation implementation” Procedings of Belgrade Bio In formatics Conference 2016”, 2017, 11 с.
  8. D.V. Piatnytskyi, S.N. Volkov. “Complexes of Hydrogen Peroxide and DNA Phosphate Group in Quantum Chemical Calculations”, Biophysical Bulletin, 2017, №2, 8 с.
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  10. B.E. Grinyuk, D.V. Piatnytskyi. Structure of14N nucleus within a five-cluster model. Ukr. J. Phys., vol. 62, № 10, 2017, p. 835-844.
  11. Yu. B. Gaididei, J-G. Caputo, P.L. Christiansen, J.J. Rasmussen, M.P. Soerensen “A general microscopic traffic model yielding dissipative shocks” DOI 10.1007/978-3-319-63082-3_59
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Відділ синергетики
  1. Beom-Kyu Lee, Sung-Jo Kim, Bohdan Lev, and Jong-Hyun Kim “Motion of a colloidal particle in a nonuniform director field of a nematic liquid crystal” (2017), Phys. Rev. E 95, 012709.
  2. S.B. Lev and B.I. Lev, "Statistical description of non-equilibrium self gravitating system" Eur. Phys. J. B (2017) 90: 3 DOI: 10.1140/epjb/e2016-70386-9
  3. B.I. Lev , V.B. Tymchyshyn, A.G. Zagorodny, “Potential energy analysis for a system of interacting particles arranged in Bravis lattice”,(2017),Ukr. J. Phys. Vol. 62, 217.
  4. B.I. Lev “Agrregation of nanoparticles in nematic liquid crystal” (2017), Ukr. J. Phys. Vol. 67, 595.
  5. Y. Bilotsky, M. Gasik , B. Lev “Diffusion equations in inhomogeneous solid having arbitrary gradient concentration” Condensed Matter Physics, (2017), Vol. 20, No 1, 13201: 1–5, DOI: 10.5488/CMP.20.13201
  6. B.I. Lev and S.B. Lev “Non-equilibrium dynamic of a Universe formation” Mod. Phys.Lett. A. September 2017, Vol. 32, No. 30, https://doi.org/10.1142/S0217732317501656 (2017)
  7. B.I. Lev, V.B. Tymchyshyn, A.G. Zagorodny “On certain properties of nonlinear oscillator with coordinate-dependent mass”, Physics Letters A 381 (2017) 3417–3423
  8. A.P. Rebesh , B.I. Lev “Geometry of the equilibrium distribution of interacting particles” Phys.Lett.A, (2017) DOI:o5.0510375-9601
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  11. V.B. Bobrov, A.G. Zagorodny, S.A. Trigger. Another approach for obtaining the excitation spectra in degenerate Bose gases with delta-shaped interaction potentials. Low Temperature Physics 43 (3), (2017), 343-350.
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Відділ теорії ядра і квантової теорії поля
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Відділ комп’ютерного забезпечення наукових досліджень і науково-технічної інформації
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