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2022


Статті

  1. Melnyk R., Trokhymchuk A., Baumketner A., Excluded volume of the system of hard-core spheres revisited: New insights from computer simulations // Journal of Molecular Liquids, 368, 120672 (2022); WoS, Scopus, Q1.
  2. Folk R., Holovatch Y., Schottky’s forgotten step to the Ising model// European Physical Journal H, 47(1), 9 (2022); WoS, Scopus, Q3.
  3. Shapoval D., Blavatska V., Dudka M., Survival in two-species reaction-diffusion system with Lévy flights: renormalization group treatment and numerical simulations // Journal of Physics A: Mathematical and Theoretical, 55(45), 455002 (2022); WoS, Scopus, Q1.
  4. Bryk T., Jakse N., Ruocco G., Wax J.-F., Nonacoustic high-frequency collective excitations in a ZrCuAl metallic glass // Physical Review B, 106(17), 174203 (2022); WoS, Scopus, Q1.
  5. Kalyuzhnyi Y.V., Vlachy V., Numerical analysis of the liquid-liquid phase separation in the antibody–human serum albumin mixtures in aqueous buffer solution // Journal of Molecular Liquids, 365, 120006 (2022); WoS, Scopus, Q1.
  6. Shchur Y., Kityk A.V., Lattice dynamics of LiH2PO4 crystal // Physica B: Condensed Matter, 643, 414161 (2022); WoS, Scopus, Q2.
  7. Patsahan O., Meyra A., Ciach A., Effect of a confining surface on a mixture with spontaneous inhomogeneities // Journal of Molecular Liquids, 363, 119844 (2022); WoS, Scopus, Q1.
  8. Kravtsiv I., Patsahan T., Holovko M., di Caprio D., Soft core fluid with competing interactions at a hard wall // Journal of Molecular Liquids, 362, 119652 (2022); WoS, Scopus, Q1.
  9. Hutak T., Skorobagatko G., Tunneling maps of interacting electrons in real time: Anomalous tunneling in quantum point-contacts beyond the steady state regime // Physics Letters, Section A: General, Atomic and Solid State Physics, 446, 128246 (2022); Scopus, Q2.
  10. Ruiz-Lorenzo J.J., Dudka M., Holovatch Y., Critical behavior of the three-dimensional random-anisotropy Heisenberg model // Physical Review E, 106(3), 034123 (2022); WoS, Scopus, Q1.
  11. Bryk T., Schirmacher W., Ruocco G., Comment on “deformations, relaxation, and broken symmetries in liquids, solids, and glasses: A unified topological field theory” // Physical Review E, 106(3), 036601 (2022); WoS, Scopus, Q1.
  12. Shchur Y., Beltramo G., Andrushchak A.S., Vitusevich S., Huber P., Adamiv V., Teslyuk I., Boichuk N., Kityk A.V., On the issue of textured crystallization of Ba(NO3)2 in mesoporous SiO2: Raman spectroscopy and lattice dynamics analysis // Spectrochimica Acta - Part A: Molecular and Biomolecular Spectroscopy, 275, 121157 (2022); WoS, Scopus, Q2.
  13. Dublenych Y.I., Petrenko O.A., An Ising model on a 3D honeycomb zigzag-ladder lattice: a solution to the ground-state problem // SciPost Physics Core, 5(3), 047 (2022); Scopus.
  14. Groda Y., Dudka M., Oshanin G., Kornyshev A.A., Kondrat S., Ionic liquids in conducting nanoslits: How important is the range of the screened electrostatic interactions? // Journal of Physics: Condensed Matter, 34(26), 26LT01 (2022); WoS, Scopus, Q2.
  15. Hutak T., Krokhmalskii T., Derzhko O., Richter J., Quantum Heisenberg model on a sawtooth-chain lattice: rotation-invariant Green’s function method // European Physical Journal B, 95(6), 93 (2022); WoS, Scopus, Q3.
  16. Mryglod O., Holovatch Y., Kenna R., Big fish and small ponds: why the departmental h-index should not be used to rank universities // Scientometrics, 127(6), 3279-3292 (2022); WoS, Scopus, Q1.
  17. Duviryak A., On the free rotation of a polarized spinning-top as a test of the correct radiation reaction torque // European Journal of Physics, 43(3), 035203 (2022); WoS, Scopus, Q3.
  18. Kozlovskii M.P., Dobush O.A., Phase behavior of a cell model with Curie-Weiss interaction // Journal of Molecular Liquids, 353, 118843 (2022); WoS, Scopus, Q1.
  19. Simončič M., Lukšič M., Druchok M., Machine learning assessment of the binding region as a tool for more efficient computational receptor-ligand docking // Journal of Molecular Liquids, 353, 118759 (2022); WoS, Scopus, Q1.
  20. Hvozd T.V., Kalyuzhnyi Yu.V., Vlachy V., Cummings P.T., Empty liquid state and re-entrant phase behavior of the patchy colloids confined in porous media // Journal of Chemical Physics, 156(16), 161102 (2022); WoS, Scopus, Q1.
  21. Baumketner A., Melnyk R., Kagome lattice made by impenetrable ellipses with attractive walls // Soft Matter, 18(19), 3801-3814 (2022); WoS, Scopus, Q1.
  22. Nikolaienko T., Gurbych O., Druchok M., Complex machine learning model needs complex testing: Examining predictability of molecular binding affinity by a graph neural network // Journal of Computational Chemistry, 43(10), 728-739 (2022); WoS, Scopus, Q1.
  23. Haydukivska K., Blavatska V., Toy models of multibranched polymers: Opened vs circular structures // Journal of Physics A: Mathematical and Theoretical, 55(14),145001 (2022); WoS, Scopus, Q1.
  24. Yaremko O.M., Adamiv V.T., Teslyuk I.M., Zhukovska D., Wielgosz R., Strykhaluik B.M., Andrushchak A.S., Shchur Ya., Synthesis and Study of KH2PO4 Nanotubes (Nanorods) Embedded in Al2O3 Porous Matrix // Acta Physica Polonica A, 141(4), 390-395 (2022); WoS, Scopus, Q4.
  25. Richter J., Derzhko O., Schnack J., Thermodynamics of the spin-half square kagome lattice antiferromagnet // Physical Review B, 105(14), 144427 (2022); WoS, Scopus, Q1.
  26. Blavatska V., Holovatch Y., Spreading processes in “post-epidemic” environments. II. Safety patterns on scale-free networks // Physica A: Statistical Mechanics and its Applications, 591, 126799 (2022); WoS, Scopus, Q1.
  27. Haydukivska K., Blavatska V., Kłos J.S., Paturej J., Conformational properties of hybrid star-shaped polymers comprised of linear and ring arms // Physical Review E, 105(3), 034502 (2022); WoS, Scopus, Q1.
  28. Tamm M.V., Dudka M., Pospelov N., Oshanin G., Nechaev S., From steady-state TASEP model with open boundaries to 1D Ising model at negative fugacity // Journal of Statistical Mechanics: Theory and Experiment, 2022(3), 033201 (2022); WoS, Scopus, Q3.
  29. Patsahan O., Ciach A., Mesoscopic inhomogeneities in concentrated electrolytes // ACS Omega, 7(8), 6655-6664 (2022); WoS, Scopus, Q1.
  30. Schirmacher W., Bryk T., Ruocco G., Modeling the instantaneous normal mode spectra of liquids as that of unstable elastic media // Proceedings of the National Academy of Sciences of the United States of America, 119(8), e2119288119 (2022); WoS, Scopus, Q1.
  31. Pylyuk I.V., Kozlovskii M.P., First-order phase transition in the framework of the cell fluid model: regions of chemical potential variation and the corresponding densities // Ukrainian Journal of Physics, 67(1), 54 (2022); WoS, Scopus, Q3.
  32. Verkholyak T., Strečka J., Fractional magnetization plateaux of a spin-1/2 Heisenberg model on the Shastry-Sutherland lattice: Effect of quantum XY interdimer coupling // SciPost Physics, 12(2), 056 (2022); WoS, Scopus, Q1.
  33. Strečka J., Verkholyak T., Richter J., Karl'ová K., Derzhko O., Schnack J., Frustrated magnetism of spin-1/2 Heisenberg diamond and octahedral chains as a statistical mechanical monomer-dimer problem // Physical Review B, 105(6), 064420 (2022); WoS, Scopus, Q1.
  34. Melnyk R., Kalyuzhnyi Y., Kahl G., Baumketner A., Liquid-gas critical point of a two-dimensional system of hard ellipses with attractive wells // Journal of Chemical Physics, 156(3), 034102 (2022); WoS, Scopus, Q1.
  35. Hvozd M., Patsahan O., Patsahan T., Holovko M., Fluid-fluid phase behaviour in the explicit hard spherocylinder solvent ionic model confined in a disordered porous medium // Journal of Molecular Liquids, 346, 117888 (2022); WoS, Scopus, Q1.
  36. Skorobagatko G.A., Restrictions on the existence of weak values in quantum mechanics: Weak quantum evolution concept // Physics Letters, Section A: General, Atomic and Solid State Physics, 421, 127770 (2022); Scopus, Q2.
  37. Andrushchak N., Vynnyk D., Adamiv V., Haiduchok V., Strelchuk V., Nikolenko A., Zhydachevskyy Y., Shchur Y., Andrushchak A., Optical and electron microscopy studies of Al2O3 nanomatrices with embedded ADP and KB5 nanocrystals // Proceedings of the 2022 IEEE 12th International Conference “Nanomaterials: Applications & Properties” (NAP), NCI02-1-NCI02-4 (2022); Scopus.
  38. Verkholyak T., Kuzmak A., Kornyshev A.A., Kondrat S., Less Is More: Can Low Quantum Capacitance Boost Capacitive Energy Storage? // Journal of Physical Chemistry Letters, 13(47), 10976–10980 (2022); WoS, Scopus, Q1.
  39. Shapoval D., Dudka M., Holovatch Y., On the new universality class in structurally disordered n-vector model with long-range interactions // Low Temperature Physics, 48, 1049 (2022) [Fizyka Nyzkykh Temperatur, 48(12), 1187-1193 (2022)]; WoS, Scopus, Q3.
  40. Sarkanych P., Fedorak N., Holovatch Y., Maccarron P., Yose J., Kenna R., Network analysis of the Kyiv bylyny cycle — East Slavic epic narratives // Advances in Complex Systems, 25(4), 2240007 (2022); WoS, Scopus, Q2.
  41. Shmotolokha V.I., Holovko M.F., Effects of porous media on the phase behaviour of polypeptide solutions // Condensed Matter Physics, 25(3), 33602 (2022); WoS, Scopus, Q3.
  42. Yaremchuk D., Patsahan T., Ilnytskyi J., Photo-switchable liquid crystalline brush as an aligning surface for liquid crystals: modelling via mesoscopic computer simulations // Condensed Matter Physics, 25(3), 33601 (2022); WoS, Scopus, Q3.
  43. Baumketner A., On the algorithm to perform Monte Carlo simulations in cells with constant volume and variable shape // Condensed Matter Physics, 25(3), 33201 (2022); WoS, Scopus, Q3.
  44. Duviryak A., Solvable two-particle systems with time-asymmetric interactions in De Sitter space // Journal of Physical Studies, 26(3), 3002 (2022); Scopus, Q4.
  45. Levitskii R.R., Zachek I.R., Andrushchak A.S., Influence of electric field E3 on the phase transition and thermodynamic characteristics of GPI ferroelectrics // Journal of Physical Studies, 26(3), 3601 (2022); Scopus, Q4.
  46. Tokarchuk M.V., Kinetic description of ion transport in the system “ionic solution – porous environment” // Mathematical Modeling and Computing, 9(3), 719-733 (2022); Scopus, Q3.
  47. Levitskii R.R., Zachek I.R., Influence of uniaxial pressures on dynamic dielectric characteristics of RbHSO4 // Mathematical Modeling and Computing, 9(3), 711-718 (2022); Scopus, Q3.
  48. Patsahan T., Pizio O., Structural aspects of the clustering of curcumin molecules in water. Molecular dynamics computer simulation study // Condensed Matter Physics, 25(2), 23201 (2022); WoS, Scopus, Q3.
  49. Vdovych A.S., Levitskii R.R., Zachek I.R., Effect of hydrostatic pressure on dynamic dielectric characteristics of CsH2PO4 ferroelectric // Condensed Matter Physics, 25(2), 23701 (2022); WoS, Scopus, Q3.
  50. Kravtsiv I., Bokun G., Holovko M., Prokopchuk N., Caprio D.D., Charge and electric field distributions in the interelectrode region of an inhomogeneous solid electrolyte // Condensed Matter Physics, 25(2), 23501 (2022); WoS, Scopus, Q3.
  51. Haydukivska K., Kalyuzhnyi O., Blavatska V., Ilnytskyi J., Swelling of asymmetric pom-pom polymers in dilute solutions // Condensed Matter Physics, 25(2), 23302 (2022); WoS, Scopus, Q3.
  52. Vdovych A.S., Levitskii R.R., Zachek I.R., Moina A.P., Influence of hydrostatic pressure on dynamic dielectric characteristics of RbHSO4 // Journal of Physical Studies, 26(2), 2701 (2022); Scopus, Q4.
  53. Tokarchuk M.V., To the kinetic theory of dense gases and liquids. Calculation of quasi-equilibrium particle distribution functions by the method of collective variables // Mathematical Modeling and Computing, 9(2), 440-458 (2022); Scopus, Q3.
  54. Yaremko O., Adamiv V., Teslyuk I., Shchur Y., Andrushchak A., Zhukovska D., Lelonek M., Preparation of Potassium Pentaborate and Lithium Niobate crystalline nanocomposites based on Al2O3and SiO2 nanoporous matrices // Proceedings - 16th International Conference on Advanced Trends in Radioelectronics, Telecommunications and Computer Engineering, TCSET 2022, 689-693 (2022); Scopus.
  55. Ignatyuk V.V., Morozov V.G., Decoherence in open quantum systems: influence of the intrinsic bath dynamics // Condensed Matter Physics, 25(1), 13302 (2022); WoS, Scopus, Q3.
  56. Schirmacher W., Bryk T., Ruocco G., Comment on “Explaining the specific heat of liquids based on instantaneous normal modes” // Physical Review E, 106(6), 066101 (2022); WoS, Scopus, Q1.
  57. Hvozd T., Kalyuzhnyi Yu., Vlachy V., Behaviour of the model antibody fluid constrained by rigid spherical obstacles. Effects of the obstacle-antibody attraction // Soft Matter, 18, 9108-9117 (2022); WoS, Scopus, Q1.
  58. Yukhnovskii I.R., Tokarchuk M.V., Hlushak P.A., The method of collective variables in the theory of nonlinear fluctuations with account for kinetic processes // Ukrainian Journal of Physics, 67, 579-591 (2022); WoS, Scopus, Q3.
  59. Mryglod O., Nazarovets S., Kozmenko S., Peculiarities of gender disambiguation and ordering of non-English authors’ names for Economic papers beyond core databases // Journal of Data and Information Science, 8(1), 1–18 (2022); Scopus, Q2.
  60. Holovatch Y., Kordyuk A., Mryglod I., The war in Ukraine: does physics have a future? // Europhysics News, 53(4), 20-23 (2022); Scopus, Q4.
  61. Vysochanskii Yu., Derzhko O., About this special issue “Ferroelectricity and Multiferroics” // Condensed Matter Physics, 2022, 25(4), 40101 (2022); WoS, Scopus, Q3.
  62. Moina A., Vdovych A., Derzhko O., In memory of Professor Roman Levitskii: 1943–2022 // Condensed Matter Physics, 25(4), 40102 (2022); WoS, Scopus, Q3.
  63. Moina A.P., Electric field induced polarization rotation in squaric acid crystals revisited // Condensed Matter Physics, 25(4), 43710 (2022); WoS, Scopus, Q3.
  64. Vdovych A.S., Levitskii R.R., Zachek I.R., Electrocaloric and barocaloric effects in CsH2PO4 ferroelectric // Condensed Matter Physics, 25(4), 43711 (2022); WoS, Scopus, Q3.
  65. Berche B., Ellis T., Holovatch Y., Kenna R., Phase transitions above the upper critical dimension // SciPost Physics Lecture Notes, 60, 1-44 (2022).
  66. Кориневський М.А., Вдович А.С., Моїна А.П., Баран О.Р., Науковий шлях та наукові здобутки Р.Р. Левицького. – У кн.: Бібліографія українських вчених. Роман Романович Левицький. Біобібліографічний покажчик, ІФКС НАН  України, Львів, 2022, c. 3-25.
  67. Моїна А., Держко О., Пам’яті Романа Романовича Левицького: 1943–2022 // Journal of Physical Studies, 26(4), 4998 (2022); Scopus, Q4.