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Publications 2023

  1. I.V. Pylyuk, M.P. Kozlovskii, O.A. Dobush, M.V. Dufanets, Morse fluids in the immediate vicinity of the critical point: Calculation of thermodynamic coefficients, J. Mol. Liq. 385, 122322 (2023) pdf (open access)
  2. I.V. Pylyuk, M.P. Kozlovskii, O.A. Dobush, Thermodynamic quantities of Morse fluids in the supercritical region, Ukr. J. Phys. Vol. 68, no. 6, 383-389 (2023) pdf
  3. Mryglod, O., Nazarovets, S. Lost for the country: country-undefined papers in Web of Science and Scopus. Scientometrics (2023). 10.1007/s11192-023-04661-1
  4. Mryglod O. One for all and all for one: on the role of a conference in a scientist's life. // Condens. Matter Phys. – 2023. – 26, 1. – P. 13801. https://doi.org/10.5488/CMP.26.13801 Препринт arXiv: 2212.04242 Білатеральний україно-австрійський проєкт № 0122U002589 pdf
  5. Mryglod O., Nazarovets S., Kozmenko S., Peculiarities of gender disambiguation and ordering of non-English authors' names for Economic papers beyond core databases. (прийнято до опублікування у Journal of Data and Information Science) https://doi.org/10.2478/jdis-2023-0001
  6. Haydukivska K., Blavatska V. On the swelling properties of pom-pom polymers: impact of backbone length. // Condens. Matter Phys. - 2023. - 26, 2. - P. 23301 https://doi.org/10.5488/CMP.26.23301
  7. Order, Disorder and Criticality. Advanced Problems of Phase Transition Theory. Yu. Holovatch (editor). vol. 7 World Scientific, Singapore, 2023, 264 p. Book description. Sample chapters:  Preface,  Chapter I
  8. Maxym Dudka, Mariana Krasnytska, Juan J. Ruiz-Lorenzo, Yurij Holovatch.   Effective and asymptotic criticality of structurally disordered magnets. JMMM vol. 575 (2023) 170718 abstract, pdf
  9. Mariana Krasnytska, Petro Sarkanych, Bertrand Berche, Yurij Holovatch, Ralph Kenna.   Potts Model with Invisible States: A Review. Eur. J. Phys. ST (2023) link to the journal, abstract, pdf
  10. P. Sarkanych, M. Krasnytska. Potts model with invisible states on scale-free network, Condens. Matt. Phys., vol 26 No.1 (2023) 13507. pdf
  11. R. Folk, Yu. Holovatch, R. Kenna, M. Krasnytska (Editors).   Complexity and Collective Behaviour: Solids, Fields, and Data (dedicated to Bertrand Berche on his 60th birthday). Condens. Matter Phys., vol. 26 (2023) No 1. content, foreword
  12. I.V. Pylyuk, M.P. Kozlovskii, O.A. Dobush, Analytic calculation of the critical temperature and estimation of the critical region size for a fluid model, Ukr. J. Phys. Vol. 68, no. 9, 601-607 (2023) pdf
  13. Petro Sarkanych, Mariana Krasnytska, Luis Gómez-Nava, Pawel Romanczuk, Yurij Holovatch.   Individual bias and fluctuations in collective decision making: from algorithms to Hamiltonians. Phys. Biol. vol. 20 (2023) 045005, paper online, abstract, pdf
  14. A. K. Rathie, M. A. Shpot. Two closed-form evaluations for the generalized hypergeometric function 4F3(1/16), arXiv:2303.07664

Publications 2022

  1. V. Blavatska, Yu. Holovatch. Spreading processes in `post-epidemic' environments. II. Safety patterns on scale-free networks. Physica A, 591, 126799 (2022) pdf
  2. Ya. Groda, M. Dudka, A. A. Kornyshev, G. Oshanin, S. Kondrat, Ionic liquids in conducting nanoslits: How important is the range of the screened electrostatic interactions? Journal of Physics: Condensed Matter 34, 26LT01 (2022) pdf
  3. M. V. Tamm, M. Dudka, N. Pospelov, G.Oshanin, S. Nechaev. From steady-state TASEP model with open boundaries to 1D Ising model at negative fugacity. Journal of Statistical Mechanics: Theory and Experiment (2022) 033201 pdf
  4. J. J. Ruiz-Lorenzo, M. Dudka, Yu. Holovatch. Critical Behavior of the Three-Dimensional Random Anisotropy Heisenberg Model. Phys. Rev. E 106, 034123 (2022) pdf
  5. Dmytro Shapoval Let it snow. Physics of snowflakes, Popular science media "Kunsht" (2022) (in Ukrainian)
  6. I.V.Pylyuk, M.P.Kozlovskii, First-order phase transition in the framework of the cell fluid model: Regions of chemical potential variation and the corresponding densities, Ukr. J. Phys. Vol. 67, no. 1, 54-61 (2022) pdf
  7. M.P.Kozlovskii, O.A. Dobush, Phase behavior of a cell model with Curie-Weiss interaction, J. Mol. Liq. 353 (2022) 118843
  8. Olesya Mryglod, Yurij Holovatch, Ralph Kenna. Big fish and small ponds: why the departmental h-index should not be used to rank universities. Scientometrics 127, 3279 (2022) pdf
  9. P. Sarkanych, N. Fedorak, Yu. Holovatch, P. MacCarron, J. Yose, R. Kenna. Network analysis of the Kyiv bylyny cycle -- east Slavic epic narratives Advances in Complex Systems, Topical Issue on Cultural Complexity 25(4) (2022) 2240007 paper online, abstract, pdf
  10. D. Shapoval, V. Blavatska, M. Dudka. Survival in two-species reaction-diffusion system with Lévy flights: Renormalization group treatment and numerical simulations. J. Phys. A 55, 455002 (2022)pdf
  11. Reinhardt Folk, Yurij Holovatch. Schottky's forgotten step to the Ising model. Eur. J. Phys. H 47 (2022) 9 abstract paper online, pdf
  12. Order, Disorder and Criticality. Advanced Problems of Phase Transition Theory. Yu. Holovatch (editor). vol. 7 World Scientific, Singapore, 2022 coming soon. Sample chapters: Preface, I, II, III
  13. Bertrand Berche, Tim Ellis, Yurij Holovatch, Ralph Kenna. Phase transitions above the upper critical dimension. SciPost Phys. Lect. Notes 60 (2022) abstract, pdf
  14. Maxym Dudka, Mariana Krasnytska, Juan J. Ruiz-Lorenzo, Yurij Holovatch. Effective and asymptotic criticality of structurally disordered magnets. (submitted to J. Magn. Magn. Mater.pdf
  15. Petro Sarkanych, Mariana Krasnytska. Potts model with invisible states on a scale-free network. (submitted to Condens. Mater. Phys.) pdf
  16. Yurij Holovatch, Alexander Kordyuk, Ihor Mryglod. The war in Ukraine: does physics have a future? Europhys. News 53/4 (2022) 21 paper online, pdf.
  17. D. Shapoval, M. Dudka, Yu. Holovatch. On the new universality class in structurally disordered n-vector model with long-range interactions. Fizyka Nyzkykh Temperatur 48, 1187 (2022) pdf

Publications 2021

  1. M. A. Shpot. Boundary conformal field theory at the extraordinary transition: The layer susceptibility to O(ε), JHEP 1 (2021) 055 pdf
  2. Y. Groda, M. Dudka, A. A. Kornyshev, G. Oshanin, S. Kondrat, Superionic Liquids in Conducting Nanoslits: Insights from Theory and Simulations, The Journal of Physical Chemistry C, 125, 9, 4968–4976 (2021). pdf
  3. V. Blavatska, Yu. Holovatch, Spreading processes in `post-epidemic' environments, Physica A 573, 125980 (2021) pdf
  4. D. Shapoval, M. Dudka, O. Bénichou, G. Oshanin, Binary lattice-gases of particles with soft exclusion: Exact phase diagrams for tree-like lattices. J. Phys. A 54 (2021) 85003 pdf
  5. Yu. Honchar, C. von Ferber, Yu. Holovatch.   Variety of scaling laws for DNA thermal denaturation. Physica A , 573, 125917 (2021). abstract, pdf, 50 days free access
  6. V. Blavatska, Yu. Holovatch.   Spreading processes in `post-epidemic' environments, Physica A vol. 573 (2021) 125980 abstract, pdf, 50 days free access
  7. P. Sarkanych, Yu. Holovatch, R. Kenna, T. Yavors'kii.   Extracting partition function zeros from Fukui-Todo simulations. EPL vol. 135(3) (2021) 3700
  8. V. Palchykov, M. Krasnytska, O. Mryglod, Yu. Holovatch.   A mechanism for evolution of the physical concepts network. Condens. Matter Phys. vol. 24 (2021) 24001. abstract, pdf
  9. Yu. Holovatch, C. von Ferber, Yu. Honchar.   DNA thermal denaturation by polymer field theory approach: effects of the environment. Condens. Matter Phys. 24 (2021) 33603
  10. V. Palchykov, M. Krasnytska, O. Mryglod, Yu. Holovatch.   Network of scientific concepts: empirical analysis and modeling. Adv. Complex Syst. (2021) 2140001
  11. M. Dudka, Yu. Holovatch.  Vivat Academia! Vivant Professores! (To the centenary of the clandestine Ukrainian university in Lviv). Herald of the Shevchenko Scientific Society, in press.
  12. O. Mryglod, S. Nazarovets, S. Kozmenko, Universal and specific features of Ukrainian economic research: publication analysis based on Crossref data. Scientometrics, 126, 8187. pdf
  13. A. Shvaika, M. Shpot, W. Schirmacher, T. Bryk, G. Ruocco. Comment on ``Universal Origin of Boson Peak Vibrational Anomalies in Ordered Crystals and in Amorphous Materials'', Phys. Rev. Lett. 127 (2021) 179601
  14. A. Shvaika, M. Shpot, W. Schirmacher, T. Bryk, G. Ruocco. Absence of a boson peak in anharmonic phonon models with Akhiezer-type damping, arXiv:2104.13076
  15. M. Krasnytska, B. Berche, Yu. Holovatch, R. Kenna. Generalized Ising Model on a Scale-Free Network: An Interplay of Power Laws. Entropy 23(9) (2021) 1175. pdf
  16. I.V. Pylyuk, M.P. Kozlovskii, Phase transition of the first order within the cell fluid model framework: Regions of the chemical potential variation and corresponding densities, Preprint ICMP-21-02U (2021) pdf Ukr. J. Phys., submitted.
  17. Kozlovskii M.P., Dobush O.A. Phase behavior of a cell model with Curie-Weiss interaction, preprint (2021) arXiv:2112.00808 pdf J. Mol. Liq, submitted.
  18. Nazarovets S., Mryglod O. Multilingualism of Ukrainian humanities: How it is seen globally. 18th International Conference on Scientometrics and Informetrics, ISSI 2021, 12-15 July 2021, Conference Proceedings. Leuven, Belgium. pdf
  19. Yu. Holovatch, Yu. Honchar, M. Krasnytska, Physics And Physicists In The Shevchenko Scientific Society, Leopolis Scientifica. Exact Sciences in Lviv until the middle of the 20th century, ed. Oleh Petruk, Lviv, 2021. — 352 p. — сс. 273-302. ISBN 9660296444, 9789660296442url
  20. Yu. Holovatch. The whole is more than a sum of ots parts. Herald of the National Acad. Sci. of Ukraine No 12 (2021) 17 — 26
  21. M. Dudka, Yu. Holovatch, R. Samotyj, “Clandestine Ukrainian higher schools in Lviv”, In O. Petruk (Ed.), "Leopolis Scientifica. Exact Sciences in Lviv until the middle of the 20th century." Lviv: Institute for Applied Problems in Mechanics and Mathematics, 2021. ISBN 978-966-02-9644-2. P. 74-106
  22. Dmytro Shapoval Physics of ballet, Popular science media "Kunsht" (2021) (in Ukrainian)
  23. Dmytro Shapoval A new state of matter: what are time crystals, Popular science media "Kunsht" (2021) (in Ukrainian)

Publications 2020

  1. M.P. Kozlovskіі, O.A. Dobush, Behavior of a Binary Asymmetric Mixture of Interacting Particles in the Supercritical Region, Ukr. J. Phys. Vol. 65, no. 9, 768–777 (2020) pdf
  2. M.P. Kozlovskіі, O.A. Dobush, Phase Behavior of a Cell Fluid Model with Modified Morse Potential, Ukr. J. Phys. Vol. 65, no. 5, 428–437 (2020) pdf
  3. Yu.V. Kozitsky, M.P. Kozlovskii, O.A. Dobush, A phase transition in a Curie-Weiss system with binary interactions, Condens. Matter Phys. Vol. 23, no. 2, 23502:1-16 (2020) pdf
  4. Yukhnovskii I.R., Bar’yakhtar V.G., Bakai A.S, Kozlovskii M.P. et al. A Prominent Representative of the New Generation of Ukrainian Physicists (to the 60th birthday of Ihor Mryglod). Ukr. J. Phys. – 2020. – Vol.65,no.6.–Pp.552. pdf
  5. M. Krasnytska, B. Berche, Yu. Holovatch, R. Kenna. Ising model with variable spin/agent strengths. J. Phys. Complex. 1 035008 (2020).   pdf
  6. D. Shapoval, M. Dudka, A. A. Fedorenko, and Yu. Holovatch, On the possibility of a continuous phase transition in random-anisotropy magnets with a generic random-axis distribution, Phys. Rev. B. 101 064402 (2020). pdf
  7. D. Shapoval, M. Dudka, Olivier Bénichou, Gleb Oshanin, Equilibrium properties of two-species reactive lattice gases on random catalytic chains, Phys. Rev. E. 102 032121 (2020) pdf
  8. Mryglod O., Mryglod I.Collective authorship in ukrainian science: marginal effect or new phenomenon?  Bull. Nat. Acad. Sci. Ukraine. – 2020. – № 7. – 34. (in Ukrainian) pdf
  9. P. Sarkanych in "Cultural landscape of Lviv: institutions, activities, interactions", Cultural Strategy Institute, Lviv 2019.
  10. Maksym Tsizh, Bohdan Novosyadlyj, Yurij Holovatch, Noam I Libeskind. Large-scale structures in the $\Lambda$CDM Universe: network analysis and machine learning. Monthly Notices of the Royal Astr. Soc. vol. 495 (2020) 1311-1320 abstract pdf
  11. V. Blavatska, K. Haydukivska, Yu.Holovatch. Shape analysis of random polymer networks. J. Phys.: Cond.Matt. vol. 32 (2020) 335102 abstract pdf
  12. Verba et numeri. Quantitative Approaches to Analyse Language and Text. Yu. Holovatch, A. Rovenchak (editors) Ukraina Moderna No 27 (2019) (in Ukrainian). Introduction table of contents
  13. Yu. Holovatch, R. Kenna, P. Mac Carron, P. Sarkanych, N. Fedorak, J. Yose. Mathematics and Mythes: quantitative approach to comparative mythology. Ukraina Moderna No 27 (2019) 108-138 (in Ukrainian). pdf
  14. Yurij Holovatch, Julian Honchar, Mar'jana Krasnytska. Physics and Physicists in the Shevchenko Scientific Society in Lviv. In: Leopolis Scientifica. Science in Lviv until the middle of the XX century. Part II. Exact sciences. Ed. by O. Petruk. Lviv: Artos, 2020. 287-338. ISBN 978-617-642-493-2 (in Ukrainian) more details
  15. Maksym Dudka, Yurij Holovatch. Clandestine Ukrainian University in Lviv. In: Leopolis Scientifica. Science in Lviv until the middle of the XX century. Part I. Scientific centers. Ed. by O. Petruk. Lviv: Artos, 2020. 163-196 (in Ukrainian). pdf
  16. Yu. Holovatch, Ya. Hrytsak, B. Novosyalyj (editors). Horizons of science. vol. II: Histories of time. Lviv, UCU Publishing House, 2020, 176 p. ISBN 978-617-7637-22-5 (in Ukrainian). book, Introduction and table of contents
  17. Yu. Holovatch, Ya. Hrytsak, B. Novosyalyj. Camille Flammarion and his paper 'Present, future and time paradox'. In: Yu. Holovatch, Ya. Hrytsak, B. Novosyalyj (editors). Horizons of science. vol. II: Histories of time. Lviv, UCU Publishing House, 2020, pp. 168 - 172 (in Ukrainian).
  18. Order, Disorder and Criticality. Advanced Problems of Phase Transition Theory. Yu. Holovatch (editor). vol. 6, World Scientific, Singapore, 2020, 296 p. Preface and table of contents book description.
  19. R. Folk, Yu. Holovatch. Crossing borders in the 19th century and now - two examples of weaving a scientific network. Condens. Matter Phys. vol. 23 (2020) 23001. abstract pdf.
  20. Yu. Holovatch, R. Plyatsko, H. Svarnyk. Peter Puluj and the archive of Ivan Puluj. Physical Collection of the Shevchenko Scientific Society, Physical Collection of the Shevchenko Scientific Society. Vol 10 (2020) p. 77-98. pdf.
  21. Serhii Brodiuk, Vasyl Palchykov, Yurij Holovatch. Embedding technique and network analysis of scientific innovations emergence in an arXiv-based concept network. In: Proceedings of the 2020 IEEE Third International Conference on Data Stream Mining & Processing (DSMP) Lviv, Ukraine, August 21-25, 2020. IEEE Catalog Number: CFP20J13-USB, ISBN: 978-1-7281-3213-6, pp. 366 - 371 abstract pdf.
  22. I.V. Pylyuk, Fluid critical behavior at liquid-gas phase transition: Analytic method for microscopic description, J. Mol. Liq. 310, 112933 (2020) pdf
  23. I.V. Pylyuk and O.A. Dobush, Equation of state of a cell fluid model with allowance for Gaussian fluctuations of the order parameter, Ukr. J. Phys. Vol. 65, no. 12, 1080-1088 (2020) pdf
  24. P. Dey, T. Hansen, M. Shpot. Operator expansions, layer susceptibility and two-point functions in BCFT, JHEP 12 (2020) 051 pdf
     
  25. Mryglod O., Nazarovets S., Open scholarly metadata: formalization is required. Ukrainian economics, Workshop on Open Citations and Open Scholarly Metadata 2020, 9 September 2020, Online presentation (video)
  26. V. Blavatska, Yu. Holovatch. Spreading processes in `post-epidemic' environments, submitted. (2020) abstract pdf.
     
  27. M. Dudka Critical properties of magnets: Influence of structural disorder, anisotropy, frustrations. Thesis for the Degree of Doctor of Sciences in Physics and Mathematics. Manuscript (In Ukrainian) pdf.
  28. M.V.Vavrukh, D.V.Dzikovskyi, V.B.Solovyan. The calculation of photoionization cross-section of negative hydrogen ions in the Born approximation // Mathematical Modeling and Computing, Vol. 7, No. 1, pp. 125-139 (2020). pdf.

 
Publications 2019

  1. Shpot M.A., Boundary conformal field theory at the extraordinary transition: The layer susceptibility to O(ε), Preprint arXiv:1912.03021. pdf
  2. Focus on Complexity. S. Thurner, R. Kenna, Yu. Holovatch (editors) Eur. Journ. Phys. (2019). Focus issue description.
  3. Robin de Regt, Christian von Ferber, Yurij Holovatch, Mykola Lebovka. Public transportation in UK viewed as a complex network. Transportmetrica A: Transport Science 15 (2019) 722-748. abstract pdf.
  4. Yaryna Korduba, Yurij Holovatch, and Robin de Regt. Physicist's approach to public transportation networks: between data processing and statistical physics. Annales UMCS A (2019), submitted. abstract pdf.
  5. Maksym Tsizh, Bohdan Novosyadlyj, Yurij Holovatch, Noam I Libeskind. Large-scale structures in the $\Lambda$CDM Universe: network analysis and machine learning. Monthly Notices of the Royal Astr. Soc. (2019), submitted. abstract pdf.
  6. Dmytro Shapoval, Maxym Dudka, Andrei A. Fedorenko, Yurij Holovatch. On the possibility of a continuous phase transition in the random anisotropy magnets with a generic random axis distribution. Phys. Rev. B (2019), submitted. abstract pdf.
  7. Pylyuk I.V., Kozlovskii M.P., Dobush O.A. Equation of state of a cell fluid model below the critical temperature. Preprint ICMP-19-01U (2019), 24 pages. pdf.
  8. Kozlovskii M.P. and Dobush O.A., Phase behavior of a cell fluid model with modified Morse potential, Ukrainian Journal of Physics, (accepted). (Preprint arXiv:1912.00769. pdf )
  9. Gnatenko Kh. P. Parameters of noncommutativity in Lie-algebraic noncommutative space, Phys. Rev. D. 99(2) 026009 (2019).
  10. Gnatenko Kh. P., Samar M. I., Tkachuk V. M. Time-reversal and rotational symmetries in noncommutative phase space. Phys. Rev. A. 99(1) 012114 (2019).
  11. Gnatenko Kh. P. Harmonic oscillator chain in noncommutative phase space with rotational symmetry. Ukr. J. Phys. 64(2) 131-136 (2019).
  12. Gnatenko Kh. P Features of description of composite system’s motion in twist deformed spacetime. Mod. Phys. Lett. A 33(1) 1950071 (2019).
  13. Radchenko A.I., Mryglod O. "MINERALOGICAL JOURNAL (UKRAINE)": 40 years of history. Mineralogical Journal 41 (1) 3 (in Ukrainian) pdf.
  14. Maxym Dudka, Svyatoslav Kondrat, Olivier Bénichou, Alexei A. Kornyshev, Gleb Oshanin, Superionic liquids in conducting nanoslits: A variety of phase transitions and ensuing charging behavior J. Chem. Phys. 151, 184105 (2019) DOI:10.1063/1.5127851 pdf
  15. Mryglod O., Nazarovets S. SCIENTOMETRICS AND MANAGEMENT OF SCIENTIFIC ACTIVITIES: ONCE AGAIN ABOUT THE GLOBAL AND UKRAINIAN. Bull. Nat. Acad. Sci. Ukraine. – 2019. – № 9. – 81. (in Ukrainian) pdf
  16.  P. Sarkanych, M. Krasnytska, Ising model with invisible states on scale-free networks. Phys. Lett. A 383 (2019) 125844. preprint  arXiv:1904.06563.
  17. Yurij Holovatch, Maxym Dudka, Viktoria Blavatska, Vasyl Palchykov, Mariana Krasnytska, Olesya Mryglod. Statistical physics of complex systems. – In: " Institute for Condensed Matter Physics of the National Academy of Sciences of Ukraine: the Half-Century Trip", I. Mryglod (ed.). – Lviv, ICMP of the National Academy of Sciences of Ukraine . – 2019. – P. 92. [in Ukrainian]
  18. Olesya Mryglod, Oksana Patsahan. "Condensed Matter Physics" journal: establishing, development and achievements. – In: " Institute for Condensed Matter Physics of the National Academy of Sciences of Ukraine: the Half-Century Trip", I. Mryglod (ed.). – Lviv, ICMP of the National Academy of Sciences of Ukraine . – 2019. – P. 142. [in Ukrainian]
  19. Olesya Mryglod, Ihor Mryglod. Publication activity of the Institute. – In: " Institute for Condensed Matter Physics of the National Academy of Sciences of Ukraine: the Half-Century Trip", I. Mryglod (ed.). – Lviv, ICMP of the National Academy of Sciences of Ukraine . – 2019. – P. 180. [in Ukrainian]

Publications 2018

  1. Kozitsky, Y., and Kozlovskii, M. (2018). A Curie–Weiss theory of the continuum Widom–Rowlinson model. Physics Letters A, 382(11), 766-770.
  2. Kozitsky, Y., Kozlovskii, M., and Dobush, O. (2018). Phase Transitions in a Continuum Curie-Weiss System: A Quantitative Analysis. In Modern Problems of Molecular Physics (pp. 229-251). Springer, Cham.
  3. Dmytro Shapoval, Maxym Dudka, Xavier Durang, Malte Henkel. Cross-over between diffusion-limited and reaction-limited regimes in the coagulation-diffusion process J. Phys. A 51 (2018) 425002 pdf
  4. Robin de Regt, Christian von Ferber, Yurij Holovatch, Mykola Lebovka, Topological and Spatial aspects of Public transportation in UK viewed as a complex network. Transportmetrica (submitted)pdf
  5. R. de Regt, S. Apunevych, C. von Ferber, Yu. Holovatch, B. Novosyadlyj. Network analysis of the COSMOS galaxy field. Monthly Notices of the Royal Astr. Soc. (2018) pdf
  6. Olesya Mryglod, Bertrand Berche, Yurij Holovatch, Ralph Kenna, Complex-network approach for visualizing and quantifying the evolution of a scientific topic. In: Information Visualization Techniques in the Social Sciences and Humanities, edited by V. Osinska and G. Osinski (IGI Global, 2018) pdf
  7. O. Kalyuzhnyi, J.M. Ilnytskyi, Yu.Holovatch, C. von Ferber. Universal shape characteristics for the mesoscopic star-shaped polymer via dissipative particle dynamics simulations. J. Phys.: Cond.Matt. (submitted)pdf
  8. Order, Disorder and Criticality. Advanced Problems of Phase Transition Theory. Yu. Holovatch (editor). vol. 5 World Scientific, Singapore, 2018. Book description
  9. Focus on Complexity. S.Turner, R.Kenna,Yu.Holovatch (editors) Eur.Journ.Phys (2018) Focus issue description
  10. Maxym Dudka, Olivier Bénichou, Gleb Oshanin, Order-disorder transitions in lattice gases with annealed reactive constraints. J. Stat.Mech.  (2018) 043206  pdf
  11. Yurij Holovatch, Maxym Dudka, Viktoria Blavatska, Vasyl Palchykov, Mariana Krasnytska, Olesya Mryglod. Statistical physics of complex systems in the world and in Lviv. Journ. Phys. Stud. 22 (2018) 2801 [in Ukrainian] pdf
  12. Paris, R. B., and M. A. Shpot. A Feynman integral in Lifshitz-point and Lorentz‐violating theories in $\mathbb {R}^{D}\oplus\mathbb {R}^m$, Mathematical Methods in the Applied Sciences 41.5 (2018): 2220-2246.
  13. Gnatenko Kh. P. Rotationally invariant noncommutative phase space of canonical type with recovered weak equivalence principle // EPL (Europhysics Letters).— 2018.— Vol. 123, No. 5.— Art. 50002.— 7 p.
  14. Gnatenko Kh. P. System of interacting harmonic oscillators in rotationally invariant noncommutative phase space // Phys. Lett. A.— 2018.— Vol. 382, No. 46.— P. 3317-3324.
  15. Gnatenko Kh. P. Parameters of noncommutativity in Lie-algebraic noncommutative space, arXiv:1811.00419 (submitted to Phys. Rev. D 02.11.2018)
  16. Gnatenko Kh. P., Samar M. I., Tkachuk V. M. Time reversal and rotational symmetries in noncommutative phase space, arXiv:1811.00372 (submitted to Phys. Rev. A 03.10.2018)
  17. Gnatenko Kh. P. Harmonic oscillator chain in noncommutative phase space with rotational symmetry, arXiv:1811.01218 (submitted to UPJ 28.08.2018)
  18. Yuri Kozitsky and Mykhailo Kozlovskii. A phase transition in a Widom-Rowlinson model with Curie-Weiss interactions J. Statistical Mechanics: Theory and Experiment (2018) 073202
  19. Kozlovskii M. P., Pylyuk I. V., Dobush O. A. The equation of state of a cell fluid model in the supercritical region. Condens. Matter Phys. 21 (2018) 43502.
  20. T. Krokhmalskii, V. Baliha, O. Derzhko, J. Schulenburg, J. Richter. Frustrated honeycomb-lattice bilayer quantum antiferromagnet in a magnetic field/Physica B: Condensed Matter 536, 388-391 (2018)
  21. J. Richter, O. Krupnitska, V. Baliha, T. Krokhmalskii, O. Derzhko. Thermodynamic properties of Ba2CoSi2O6Cl2 in a strong magnetic field: Realization of flat-band physics in a highly frustrated quantum magnet/Physical Review B 97 (2), 024405 (2018)
  22. T. Hutak, P. Muller, J. Richter, T. Krokhmalskii, O. Derzhko. The spin-1/2 Heisenberg ferromagnet on the pyrochlore lattice: A Green's function study/Condensed Matter Physics, 2018, 21, \No 3, 33705
  23. T. Krokhmalskii/ Introduction to quantum computing: Educational handbook --- Lviv: LNU named after Ivan Franko, 2018. --- 204 p.
  24.  Petro Sarkanych, Yurij Holovatch, Ralph Kenna.   Classical phase transitions in a one-dimensional short-range spin model. Journ. Phys. A 51 (2018) 505001.
  25.  Vasyl Palchykov, Yurij Holovatch.   Bipartite graph analysis as an alternative to reveal clusterization in complex systems. IEEE Second International Conference on Data Stream Mining & Processing (Dsmp2018) IEEE Catalog Number: CFP18J13-POD, ISBN: 978-1-5386-2875-1 (2018) pp. 84-87.
  26.  Olesya Mryglod, Yurij Holovatch, Ralph Kenna.   Data Mining in Scientometrics: usage analysis for academic publications. IEEE Second International Conference on Data Stream Mining & Processing (Dsmp2018) IEEE Catalog Number: CFP18J13-POD, ISBN: 978-1-5386-2875-1 (2018) pp. 241-246.
  27. Mryglod O. Scientometric analysis of Condensed Matter Physics journal, Condens. Matter Phys. 21 (2018) 22801.
  28. Yurij Holovatch, Julian Honchar, Mar'jana Krasnytska.   Physics and Physicists in the Shevchenko Scientific Society in Lviv. Journ. Phys. Stud. vol. 22 (2018) No 4.
  29. Yu. Holovatch, R. Kenna, P. Mac Carron, P. Sarkanych, N. Fedorak, J. Yose.   Mathematics and Mythes: quantitative approach to comparative mythology. Ukraina Moderna (in Ukrainian). Preprint  ICMP -18-01U.

Publications 2017

  1. Kozlovskii M. P., Dobush O. A., Pylyuk I. V. Using a cell fluid model for the description of a phase transition in simple liquid alkali metals // Ukr. J. Phys. 2017. Vol. 62, No 10. P.865-873 (arXiv:1708.08308 [cond-mat.stat-mech]).
  2. M.P. Kozlovskii, O.A. Dobush. Phase transition in a cell fluid model // Condens. Matter Phys., vol. 20, 23501 (2017) (arXiv:1604.08406).
  3. Srivastava H. M., Shpot M.A. Reduction and transformation formulas for the A ppell and related functions in two variables // Mathematical Methods in the Applied Sciences. 2017.
  4. Mariusz Adamski, Janusz Jedrzejewski, Taras Krokhmalskii/Quantum-critical scaling of fidelity in 2D pairing models/Physica B: Condensed Matter, 505, 56-67 (2017).
  5. Taras Krokhmalskii, Vasyl Baliha, Oleg Derzhko, Jorg Schulenburg, Johannes Richter/Frustrated honeycomb-lattice bilayer quantum antiferromagnet in a magnetic field: Unconventional phase transitions in a two-dimensional isotropic Heisenberg model/PHYSICAL REVIEW B 95, 094419 (2017).
  6. Kenna, R., O. Mryglod, B. Berche. A scientists' view of scientometrics: Not everything that counts can be counted. Сondensed Matter Physics 20, No. 1 (2017) 13803. pdf
  7. Мриглод О. Від фізики до наукометрії: задачі аналізу складних систем (за матеріалами доповіді на Президії НАН України 29 березня 2017 р.) Вісник НАН України 7 (2017) 54. pdf
  8. Yu. Holovatch, R. Kenna, S. Thurner, Complex systems: physics beyond physics. Eur. Journ. Phys. 38 (2017) 023002.
  9. Victor Dotsenko, Yurij Holovatch, Maxym Dudka, Martin Weigel, Self-averaging in the random 2D Ising ferromagnet. Phys. Rev. E 95 (2017) 032118.pdf
  10. K. Haydukivska, V. Blavatska, Probability of loops formation in star polymers in long range correlated disorder J. Chem. Phys. 146 (2017) 184904 pdf
  11. Thomas Ising, Reinhard Folk, Ralph Kenna, Bertrand Berche, Yurij Holovatch, The Fate of Ernst Ising and the Fate of his Model. Euro. Phys. Journ. H (submitted)pdf
  12. M. Dudka, A.A. Fedorenko, Emergent universal critical behavior of the 2D N-color Ashkin-Teller model in the presence of correlated disorder, Condens. Matter Phys. 20 (2017) 13603. pdf
  13. Petro Sarkanych, Yurij Holovatch, Ralph Kenna. Exact solution of a classical short-range spin model with a phase transition in one dimension: the Potts model with invisible states Phys. Lett. A , 381, (2017) 3589-3593 pdf
  14. Ю. Головач, М. Красницька, O. Мриглод, А. Ровенчак, Двадцять років "Журналу фізичних досліджень". Спроба журналометричного аналізу. Журн. фіз. досл. т. 21, № 4 (2017) 4001. pdf
  15. O.Y. Kalyuzhnyi, J.M. Ilnytskyi, C. von Ferber. Shape characteristics of the aggregates formed by amphiphilic stars in water: dissipative particle dynamics study. Condensed Matter Physics, 20 (2017) 13802.
  16. Maxym Dudka, Olivier Bénichou, Gleb Oshanin. Order-disorder transitions in lattice gases with annealed reactive constraints. Journal of Statistical Mechanics: Theory and Experiment (submitted) pdf
  17. Юрій Головач, Максим Дудка, Вікторія Блавацька, Василь Пальчиков, Мар'яна Красницька, Олеся Мриглод. Статистична фізика складних систем. Препринт ІФКС ICMP-17-06U pdf
  18. Kozlovskii M.P., Pylyuk I.V., Dobush O.A. The equation of state of a simple fluid in the supercritical region. arXiv preprint arXiv:1712.07164 [cond-mat.stat-mech] (2017).
  19. Paris R.B., Shpot M.A. A Feynman integral in Lifshitz-point and Lorentzviolating theories in $\mathbb {R}^1\oplus\mathbb {R}^m$ -- 2017. -- arXiv: arXiv:1707.03018[hep-th].

Publications 2016

  1. M. Kozlovskii, O. Dobush, Representation of the grand partition function of the cell model: the state equation in the mean-field approximation / J. Mol. Liq. 215 (2016) p. 58-68 doi:10.1016/j.molliq.2015.12.018
  2. (arXiv:1510.07426)
  3. Shpot M.~A., Pog{\'a}ny T.~K. The {F}eynman integral in $\mathbb{R}^1\oplus\mathbb {R}^m$ and complex expansion of $_2{F}_1$ // Integral Transforms Spec. Funct. 2016. Vol.~27, {\No}~7, pp.~533--547.
  4. Shpot M.~A., Chaudhary M.~P., Paris R.~B. Integrals of products of {H}urwitz zeta functions and the {C}asimir effect in $\phi^4$ field theories // J. Class. Anal. 2016. Vol.~9, {\No}~2, pp.~99--115.
  5. Shpot M.~A., Paris R.~B. Integrals of products of {H}urwitz zeta functions via {F}eynman parametrization and two double sums of {R}iemann zeta functions // Mathematica Aeterna. 2016. Vol.~6, {\No}~5, pp.~745--764.
  6. Pylyuk I.V., Kozlovskii M.P. Structural characteristics of a three-dimensional Ising-like system in the critical region // Int. J. Mod. Phys. B. 2016. Vol. 30, {\No} 32. 1650232 (14 pages).
  7. Ковальський Б.М., Семенів В.В., Семенів М.Р., Шовгенюк М.В. Визначення характеристик стандартних умов кольороподілу за допомогою програми "ICaS-Color Inks Gamut" // Поліграфія і видавнича справа. Львів, 2016. {\No}1 (71), - С. 79-90.
  8. Шовгенюк М.В., Ковальський Б.М., Семенів М.Р., Писанчин Н.С., Занько Н.В. Кількісна оцінка якості кольороподілу зображення для кольорового друку. // Наукові записки: зб. наук. праць. - Львів: УАД. 2016. {\No}1 (52). - С. 51-61.
  9. Kozitsky Yu.V., Kozlovskii M.P., Dobush O.A. Phase transitions in a continuum Curie-Weiss system: a quantitative analysis, ICMP–16–11E (2016).
  10. Kozitsky Yu.V., Kozlovskii M.P. A phase transition in a continuum particle system with binary Curie-Weiss interactions // preprint cond-mat. 2017. Vol. ArXiv:1610.0185v3. 16~p.
  11. Shpot M.~A., Chaudhary M.~P., Paris R.~B. Integrals of products of {H}urwitz zeta functions and the {C}asimir effect in $\phi^4$ field theories. 2016. ar{X}iv:1603.00722[math.CA].
  12. Shpot M.~A., Paris R.~B. Integrals of products of {H}urwitz zeta functions via {F}eynman parametrization and two double sums of {R}iemann zeta functions. 2016. ar{X}iv:1609.05658[math.CA].
  13. Shpot M.A., Pog{\'a}ny T.~K. The Feynman integral in $\mathbb{R}^1\oplus\mathbb {R}^m$ and complex expansion of $_2{F}_1$. Integral Transforms and Special Functions 27, 533-547 (2016) (arXiv:1510.08876 [math.CA]).
  14. Ковальський Б.М. Семенів М.Р., Шовгенюк М.В. Комп'ютерна програма синтезу зображення на відбитку для нової інформаційної та традиційних технологій кольорового друку // Science and Education a New Dimention: Natural and Technical Scienc, IV(10), ISSUE:91, 2016. - P. 72-78.
  15. M Krasnytska, B Berche, Yu Holovatch and R Kenna, Partition function zeros for the Ising model on complete graphs and on annealed scale-free networks, Journal of Physics A: Mathematical and Theoretical 49 (2016) pdf
  16. B. Delamotte, M. Dudka, D. Mouhanna, and S. Yabunaka, Functional renormalization group approach to non-collinear magnets. Phys. Rev. B 93, (2016) 064405. pdf
  17. M. Dudka, R. Folk, Yu. Holovatch, Phase diagram of Model C in the parametric space of order parameter and space dimensions. Phys. Rev. B 93, (2016) 094301. pdf
  18. O. Mryglod, Yu. Holovatch, R. Kenna, B. Berche. Quantifying the evolution of a scientific topic: reaction of the academic community to the Chornobyl disaster. Scientometrics 106 1151–1166 (2016) pdf
  19. B. Berche, Yu. Holovatch, R. Kenna, O. Mryglod. Academic research groups: evaluation of their quality and quality of their evaluation. J. Phys.: Conf. Ser. 681 (2016) 012004 pdf
  20. Yurij Holovatch, Vasyl Palchykov. Complex Networks of Words in Fables. In: Maths Meets Myths: Complexity-science approaches to folktales, myths, sagas, and histories. R. Kenna, M. Mac Carron, P. Mac Carron (Editors), Springer, 2016
  21. Yurij Holovatch, Olesya Mryglod, Michael Szell, Stefan Thurner. Analyses of a Virtual World. In: Maths Meets Myths: Complexity-science approaches to folktales, myths, sagas, and histories. R. Kenna, M. Mac Carron, P. Mac Carron (Editors), Springer, 2016
  22. Maxym Dudka, Andrei A. Fedorenko, Viktoria Blavatska, Yurij Holovatch. Critical behavior of the 2D Ising model with long-range correlated disorder. Phys. Rev. B. 93 224422 (2016) pdf
  23. V Palchykov, V Gemmetto, A Boyarsky and D Garlaschelli. Ground truth? Concept-based communities versus the external classification of physics manuscripts. EPJ Data Science 5 28 (2016) pdf
  24. M. Krasnytska, P. Sarkanych, B. Berche, Yu. Holovatch, R. Kenna, Marginal dimensions of the Potts model with invisible states. J. Phys. A: Math. Theor. 49 255001 (2016) pdf
  25. Maxym Dudka, Svyatoslav Kondrat, Alexei Kornyshev, Gleb Oshanin, Phase behaviour and structure of a superionic liquid in nonpolarized nanoconfinement. Journal of Physics: Condensed Matter 28 464007 (2016) pdf
  26. Yu. Holovatch, Quo vadis, physis? Physics and humanities. Portal 'Zbruch' 28 (2016) (in Ukrainian)text
  27. O. Kalyuzhnyi, Ja. Ilnytskyi, Yu. Holovatch, C. von Ferber, Universal shape characteristics for the mesoscopic polymer chain via dissipative particle dynamics. Condensed Matter Physics 28 505101 (2016) pdf
  28. P. Sarkanych, Yu. Holovatch, R. Kenna, P. Mac Carron, Universality and network analysis of bylyny - heroic east slavic epic narratives. J. Phys.Stud. v.20 No. 4 (2016) 4801
  29. Yu. Holovatch, R. Kenna, S. Thurner, Complex systems: physics beyond physics. Eur. Journ. Phys. (submitted) pdf
  30. Yu. Holovatch, Ya. Hrytsak (editors). Horizons of science (essays about science and scientists). Lviv, UCU Publishing House, 2016, 187 p. (in Ukrainian)
  31. N. Otrishchenko, Yu. Holovatch. Discussion about complex systems. Radio Skovoroda, 5.10.2016. (in Ukrainian) audio
  32. M Krasnytska. Phase transitions on complex networks (Thesis)(2016) pdf

Publications 2015

  1. Kozlovskii M. P., Dobush O. A., Romanik R. V. Concerning a calculation of the grand partition function of a fluid model, Ukr. J. Phys. 2015, Vol. 60, {\No} 8, 805-822.
  2. Shpot M.~A., Srivastava H.~M. The {C}lausenian hypergeometric function with unit argument and negative integral parameter differences // Appl. Math. Comput. 2015. Vol.~259, pp.~819 -- 827.
  3. Shpot M.A. Generalized hypergeometric function $_3{F}_2$ with unit argument and negative integral parameter differences. Applied Mathematics and Computation 259, 819-827 (2015) (arXiv:1411.2455 [math.CA])
  4. Козловський М.П., Пилюк І.В. Аналітичний опис критичної поведінки тривимірного одновісного магнетика в зовнішньому полі з виділенням системи відліку // УФЖ. 2015. Т. 60, {\No} 4. С. 367-375.
  5. Пилюк І.В., Козловський М.П. Кореляційна функція та сприйнятливість ізингового магнетика в околі точки фазового переходу // УФЖ. 2015. Т. 60, {\No}~10. С. 1077-1083.
  6. N. A. Korynevskii, V.B. Solovyan. Statistical Model for Nanoparticles Formation. Self-Consistent Field Approximation // Physica B 2015. 463, p. 54-61.
  7. N. A. Korynevskii, V.B. Solovyan. Self-Consistent Approach for Magnetic Ordering and Excited Site Occupation Processes in a Two-Level System // Condens. Matter Phys. 2015. 18, p. 33706:1-12.
  8. Menchyshyn O., Ohanyan V., Verkholyak T., Krokhmalskii T., Derzhko O. Magnetism-driven ferroelectricity in spin- 12 XY chains // PHYSICAL REVIEW B. 2015. {\bf 92}, 184427.
  9. Adamski M., J\c{e}drzejewski J., Krokhmalskii T. Quantum-critical scaling of fidelity in 2D BCS-like models/www.arXiv:1502.05268v1, 21~p.
  10. Richter J., Krupnitska O., Krokhmalskii T., Derzhko O. Frustrated diamond-chain quantum $XXZ$ Heisenberg antiferromagnet in a magnetic field. Journal of Magnetism and Magnetic Materials 379, 39 (2015) (arXiv:1411.7515)
  11. Menchyshyn O., Ohanyan V., Verkholyak T., Krokhmalskii T., Derzhko O. Magnetism-driven ferroelectricity in spin- 12 XY chains. Phys. Rev. B 92, 184427 (2015) (arXiv:1507.06457).
  12. O. Kapikranian, H. Zaposky, R. Patte, C. Pareige, B. Radiguet, P. Pareige, Point defect absorption by grain boundaries in α-iron by atomic density function modeling, Phys. Rev. B 92 (2015) 224106 pdf
  13. O. Mryglod, R. Kenna, Yu. Holovatch, B. Berche, Predicting Results of the Research Excellence Framework using departmental h-Index. Scientometrics 102 (2015) 2165 DOI: 10.1007/s11192-014-1512-3 pdf
  14. O. Mryglod, R. Kenna, Yu. Holovatch, B. Berche, Predicting Results of the Research Excellence Framework using departmental h-Index - Revisited. Scientometrics 104 (2015) 1013 - 1017.pdf
  15. Order, Disorder and Criticality. Advanced Problems of Phase Transition Theory. Yu. Holovatch (editor). vol. 4 World Scientific, Singapore, 2015. Book description
  16. M. Dudka. Two-loop Feynman integrals for φ4 theory with long-range correlated disorder.J.Math. Phys. 56 (2015)013302 pdf
  17. P. Sarkanych, Yu. Holovatch, R. Kenna, On the Phase Diagram of the 2d Ising Model with Frustrating Dipole Interaction.Ukr. J. Phys. 60 No 4 (2015) pdf
  18. O. Mryglod, B. Fuchs, M. Szell, Yu. Holovatch, S. Thurner. Interevent time distributions of human multi-level activity in a virtual world.Physica A 419 (2015) 681-690 pdf
  19. M. Krasnytska, B. Berche, Yu. Holovatch, R. Kenna. Violation of Lee-Yang circle theorem for Ising phase transitions on complex networks. Eur. Phys. Lett. 111 (2015) 60009 pdf
  20. O. Vasilyev, B. Berche, M. Dudka, Yu. Holovatch. Monte-Carlo study of anisotropic scaling generated by disorder. Phys. Rev. E 92 (2015) 042118pdf
  21. M. Krasnytska, B. Berche, Yu. Holovatch, R. Kenna. On the discontinuity of specific heat of the Ising model on a scale-free network. Condens. Matter. Phys. 18, No 4 (2015) 44601. pdf
  22. Мриглод О. Автоматизований алгоритм пошуку термінів у наукових публікаціях Вісник НУ «Львівська політехніка»: Комп’ютерні науки та інформаційні технології. № 826 (2015) 273 pdf
  23. K. Haydukivska, V. Blavatska, Lattice models of directed and semiflexible polymers in anisotropic environment. J. Phys. A: Math. Theor 48 (2015) 425002 (13pp) pdf

Publications 2014

  1. Yukhnovskii I.R., Kozlovskii M.P., Pylyuk I.V. Critical behavior of a 3D Ising-like system in the higher non-Gaussian approximation: Inclusion of the critical exponent of the correlation function // Int. J. Mod. Phys. B. 2014. Vol. 28, {\No}~24. 1450160 (16 pages).
  2. N. A. Korynevskii, V.B. Solovyan. Statistical Theory of Metal Nanoparticles Formation. Lattice Gas Model Approximation // Physica B 2014. 436, p.111-116.
  3. Derzhko O., Richter J., Krupnitska O., Krokhmalskii T. The square-kagome quantum Heisenberg antiferromagnet at high magnetic fields: the localized-magnon paradigm and beyond/Low Temperature Physics/ Fizika Nizkikh Temperatur, 2014, {\bf 40}, {\No} 6, pp. 662--670.
  4. Семенів В.В., Шовгенюк М.В., Семенів М.Р., Ковальський Б.М. Комп'ютерна програма для моделювання колірного тіла друкарських фарб // Комп'ютерні технології друкарства : зб. наук. праць. - Львів : УАД, 2014.- №30.- С. 136-140.
  5. Кульчицька Х.Б., Ковальський Б.М., Шовгенюк М.В. КОРЕКЦІЯ ЗОБРАЖЕННЯ ЗА СИСТЕМОЮ КОЛЬОРІВ МАНСЕЛЛА // Наукові записки УАД, 2014.
  6. Шовгенюк М.В. Векторні рівняння Нюберга в теорії кольору // Фіз. збірн. НТШ. 2014. Том 9, С. 313-318.
  7. Kozlovskii M. P., Dobush O. A., Romanik R. V. Concerning a calculation of the grand partition function of a fluid model, Preprint, ICMP-14-12E, (2014)
  8. Derzhko O., Richter J., Krupnitska O., Krokhmalskii T. The square-kagome quantum Heisenberg antiferromagnet at high magnetic fields: The localized-magnon paradigm and beyond. Fizika Nizkikh Temperatur (Kharkiv) 40, 662 (2014) [Low Temperature Physics 40, 513 (2014)] (arXiv:1312.1111)
  9. Menchyshyn O., Krokhmalskii T., Derzhko O. Simple-cubic-lattice spin-1/2 Heisenberg model within Green-function method/ Preprint ICMP-14-01E, 18~p.
  10. O. Kapikranian, H. Zapolsky, Ch. Domain, R. Patte, C. Pareige, B. Radiguet, P. Pareige. Atomic structure of grain boundaries in iron modeled using the atomic density function.Phys. Rev. B 89 (2014) 014111. pdf
  11. M. Krasnytska. Scaling functions and amplitude ratios for the Potts model on an uncorrelated scale-free networks. Condens. Matter. Phys. 17, No 2 (2014) 23602. pdf
  12. V. Dotsenko, Yu. Holovatch. Universal free energy distribution in the critical point of a random Ising ferromagnet. Phys. Rev. E 90 (2014) 23602. pdf
  13. O. Мриглод, Р. Кенна, Ю. Головач, Б. Берш. Про порівняння екстенсивної та інтенсивної мір ефективності наукових груп. Доповіді НАН України 3 (2014) 75-81. pdf
  14. O. Mryglod, B. Fuchs, M. Szell, Yu. Holovatch, S. Thurner. Interevent time distributions of human multi-level activity in a virtual world. Physica A 419 (2014) 681-690. pdf
  15. Ю. Головач, До якого класу універсальності належить перехід в надпровідний/надплинний стан? Фізичний збірник НТШ 9 (2014) 22 abstract pdf
  16. О. Мриглод. Елементи кількісного аналізу наукових журналів. Наука України у світовому інформаційному просторі. 10 (2014).
  17. Ю. Головач, Я. Грицак (за редакцією). Обрії науки (збірка нарисів про науку і про вчених). Львів, 2014, 187 с. online
  18. О. Калюжний, Я. Ільницький, Ю. Головач. Визначення універсальних характеристик форми довгих гнучких полімерних ланцюгів у доброму розчиннику методом дисипативної динаміки. Журнал фізичних досліджень. 18 (2014) pdf
  19. K. Haydukivska, V. Blavatska, Conformational properties of polymers in anisotropic environments. Condens. Matter Phys. 17 (2014) 23301 pdf
  20. K. Haydukivska, V. Blavatska, Ring polymers in crowded environment: conformational properties. J. Chem. Phys. 141 (2014) 094906 pdf
  21. V. Blavatska, W. Janke, Conformational transitions in random heteropolymer models. J. Chem. Phys. 140, (2014) 034904 pdf
  22. Ja. Ilnytskyi, Yu. Holovatch, Yu. Kozitsky, H. Ilnytskyi, Computer simulations of a stochastic model for the non-immune disease spread. Bulletin of Lviv Polytechnical University Computer Sciences and Information Technologies 800 (2014) 176 - 185.
  23. Yu. Holovatch, W. Janke, S. Thurner (Editors). Self-organization and collective behaviour in complex systems. Condens. Matter Phys. 17 (2014) No 3.
  24. O. Mryglod, R. Kenna, Yu. Holovatch. Is your EPL attractive? Classification of Публікації through download dynamics. Europhys. Lett. 108 (2014) 50011 pdf
  25. V. Palchykov, K. Kaski, J. Kertész. Transmission of cultural traits in layered ego-centric networks. Condens. Matter Phys. 17 (2014) 33802. pdf
  26. V. Palchykov, M. Mitrovic, H.-H. Jo, J. Saramäki, R. K. Pan. Inferring human mobility using communication patterns. Sci. Rep. 4 (2014) 6174. pdf
  27. M.-X. Li, V. Palchykov, Z.-Q. Jiang, K. Kaski, J. Kertész, S. Miccichè, M. Tumminello, W.-X. Zhou, R. N. Mantegna. Statistically validated mobile communication networks: Evolution of motifs in European and Chinese data. New J. Phys. 16 (2014) 083038. pdf

Publications 2013

  1. Pylyuk I.V. Order parameter of a three-dimensional Ising-like system in the simplest and higher non-Gaussian approximations // Condens. Matter Phys. 2013. Vol. 16, {\No} 2. 23007 (9 pages).
  2. N.A. Korynevskii, V.B. Solovyan. Dipole Glass Parameter Behaviour for Ferro-Antiferroelectric Solid Mixtures // Condens. Matter Phys. 2013. 16, p.13703:1-8.
  3. N.A. Korynevskii, V.B. Solovyan. Ferroelectric Order Parameter in the Two-Particle Cluster System Near Phase Transition Point. Collective Variables Method // Condens. Matter Phys. 2013. 16, p. 23703:1-11.
  4. Adamski M., J\c{e}drzejewski J., Krokhmalskii T. Quantum critical scaling of fidelity in BCS-like model. J. Stat. Mech. (2013) P07001 (arXiv:1304.2555)
  5. Adamski M., J\c{e}drzejewski J., Krokhmalskii T. Quantum phase transitions and ground-state correlations in BCS-like models/ arXiv:1311.1080 35~p.
  6. Pylyuk I.V. Order parameter of a three-dimensional Ising-like system in the simplest and higher non-Gaussian approximations. Condens. Matter Phys., 2013, vol. 16, No. 2, 23007 (arXiv:1307.2011 [cond-mat.stat-mech])
  7. C. von Ferber, Yu. Holovatch. Fractal transit networks: self-avoiding walks and Levy flights. Eur. Phys. Journ. ST, 216 (2013) 49. pdf
  8. V. Blavatska, K. Haydukivska. Polymers in anisotropic environments with extended defects Eur. Phys. Journ. ST 216 (2013) 191. pdf
  9. O. Mryglod, R. Kenna, Yu. Holovatch, B. Berche. Absolute and specific measures of research group excellence. Scientometrics 95 (2013) 115. pdf
  10. O. Mryglod, R. Kenna, Yu. Holovatch, B. Berche. Comparison of citation-based indicators and peer review for absolute and specific measures of research-group excellence. Scientometrics, vol. 97, (2013) 767-777
  11. V. Palchykov, J. Kertész, R. I. M. Dunbar, K. Kaski. Close relationships: A study of mobile comunication records. J. Stat. Phys. 151 (2013) 735-744 pdf
  12. M. Krasnytska, B. Berche, Yu. Holovatch. Phase transitions in the Potts model on complex networks. Condens. Matter. Phys., 16, No 2 (2013) 23602. pdf
  13. O. Mryglod, R. Kenna, Yu. Holovatch, B. Berche. On the problem of science evaluation. Bull. Nat. Acad. Sci. of Ukraine [in Ukrainian] 10 (2013) 76-85. pdf
  14. Mryglod I., Mryglod O. National scientific journals: general analysis, trends and problems. Collection of Science of Ukraine in the global information space 8 (2013) 37-53.
  15. V. Blavatska, C. von Ferber. Randomly charged polymers in porous environment. Condens. Matter Phys. 16 (2013) 34601 pdf
  16. V. Blavatska. Equivalence of quenched and annealed averaging in models of disordered polymers. J. Phys.: Cond. Matt. 25 (2013) 505101
  17. Ja. Ilnytskyi, Yu. Holovatch, Yu. Kozitsky (Editors). Phase transitions and critical phenomena: universality and non-universal features. Condens. Matter Phys., vol. 16 (2013) No 2. content, editorial
  18. C. von Ferber, Yu. Holovatch, I. Mryglod, and G. Oshanin (Editors). From Brownian Motion to Self-Avoiding Walks and Levy Flights. Eur. Phys. Journ. ST, vol. 216, January II (2013) 1 - 232. content, editorial