Інститут теоретичної фізики ім. М.М. Боголюбова
Національної академії наук України

Головні розділи English
Інститут
Ресурси
Наукова діяльність
Архів
Центр колективного користування
Корисні посилання
Наукові відділи Найважливіші публікації
Відділ Теорії ядра і квантової теорії поля
Монографії, статті в журналах, інші публікації
  1. K.A.Bugaev, O.V.Vitiuk, B.E. Grinyuk, P.P.Panasiuk, N.S. Yakovenko, E.S.Zherebtsova, V. V. Sagun, O. I. Ivanytskyi, L.V.Bravina, D. B. Blaschke, S. Kabana, S. V. Kuleshov, A.V.Taranenko, E.E.Zabrodin, and G. M. Zinovjev. Induced surface and curvature tension equation of state for hadron resonance gas in finite volumes and its relation to morphological thermodynamics. Int. J. Mod. Phys. A (2021), 24 p. https://doi.org/10.1142/S0217751X21410098
  2. B.E.Grinyuk. Can Nuclear Matter Consist of α-Particles? УФЖ 67, № 1, с. 17 - 21 (2022). http:// doi.org/10.15407/ujpe67.1.17
  3. B.E.Grinyuk, I.V.Simenog. Model-independent solution of nd-scattering problem in the quartet state. – UJP 67, No. 5, p.322-326 (2022). https://doi.org/10.15407/ujpe67.5.322
  4. Oleksandr V. Vitiuk, Valery M. Pugatch, Kyrill A. Bugaev, Nazar S. Yakovenko, Pavlo P. Panasiuk, Elizaveta S. Zherebtsova, Vasyl M. Dobishuk, Sergiy B. Chernyshenko, Borys E. Grinyuk, Violetta Sagun, Oleksii Ivanytskyi. Colliding and Fixed Target Mode in a Single Experiment – a Novel Approach to Study the Matter under New Extreme Conditions. – Particles, Vol. 5, Issue 3, p. 245–264 (2022). https://doi.org/10.3390/particles5030022
  5. B. E. Grinyuk, D.V. Piatnytskyi, V.S.Vasilevsky. The lowest excited states of 14C and 14O nuclei within a five-cluster model. – Nuclear Physics A (2022). https://doi.org/10.1016/j.nuclphysa.2022.122588
  6. V.F. Kharchenko. "On the analytical solving of Ter Martirosian - Skornyakov Equation for Three Particles at Negative Energies", Ukrainian Journal of Physics, 2022, vol. 67, n. 8, p. 559-560
  7. D. Anchishkin, V. Gnatovskyy, D. Zhuravel, and V. Karpenko, Selfinteracting Particle-Antiparticle System of Bosons, Phys. Rev. C 105, 045205 (2022).
  8. D. Anchishkin, Single-particle spectra in relativistic heavy-ion collisions within the thermal quantum field theory, J. Phys. G: Nucl. Part. Phys. 49, 055109 (2022).
  9. Babenko V. A., Petrov N. M. On the quartic anharmonic oscillator and the Padé-approximant averaging method. Mod. Phys. Lett. A, 2022, Vol. 37, No. 25, 2250172. [DOI: https://doi.org/10.1142/S0217732322501723]
  10. Yurii A. Sitenko, Volodymyr M. Gorkavenko, and Maria S. Tsarenkova, Magnetic flux in the vacuum of quantum bosonic matter in the cosmic string background, Phys. Rev. D 2022,Vol. 106, No. 10, 105010 (20 pp.). DOI: 10.1103/PhysRevD.106.105010.
  11. V.M. Gorkavenko, Т.V. Gorkavenko, Yu.A. Sitenko, and M.S. Tsarenkova, Induced vacuum current and magnetic flux in quantum scalar matter in the background of a vortex defect with the Neumann boundary condition, Ukr. J. Phys. 2022, Vol. 67, No. 1, 3-10.
Препринти
  1. B.E. Grinyuk, K.A. Bugaev. About Conditions of Spatial Collapse in an Infinite System of Bose Particles. arXiv:2201.07900v1[cond-mat.quant-gas] 19 Jan 2022
  2. B.E. Grinyuk. Can Nuclear Matter Consist of α-Particles? arXiv: 2202.07724 [nucl-th] 15 Feb 2022
  3. B.E. Grinyuk, D.V. Piatnytskyi, V.S.Vasilevsky. The lowest excited states of 14C and 14O nuclei within a five-cluster model. arXiv:2210.15891v1 [nucl-th] 28 Oct 2022
  4. V.M. Gorkavenko, Т.V. Gorkavenko, Yu.A. Sitenko, and M.S. Tsarenkova, Induced vacuum energy density of quantum charged scalar matter in the background of an impenetrable magnetic tube with the Neumann boundary condition, arXiv:2212.03801 [hep-th] (2022).
  5. V.E. Kuzmichev, V.V. Kuzmichev. "The Hubble tension from the standpoint of quantum cosmology", arXiv:2211.16394 [gr-qc] (2022).
Монографії, статті в журналах, інші публікації
  1. Yu.A. Sitenko. Induced vacuum magnetic field in the comic string background, Phys. Rev. D 2019, Vol. 104, No.4, 045013 (P.1-29). (Q1) https://doi.org/10.1103/PhysRevD.104.045013
  2. V.E. Kuzmichev, V.V. Kuzmichev. "Classical behavior of a quantum particle in a refringent medium", American Journal of Physics, Vol. 89 (8), p. 793-798, 2021. (Q3/Q4) DOI: 10.1119/10.0003966
  3. Бабенко В. А., Петров Н. М. Про квантовий ангармонічний осцилятор та апроксимації Паде. Ядерна фізика та енергетика, 2021, т. 22, № 2, с. 127–142. [Babenko V. A., Petrov N. M. On the Quantum Anharmonic Oscillator and Padé Approximations. Nuclear Physics and Atomic Energy, 2021, Vol. 22, No. 2, P. 127–142.] (Q3) https://doi.org/10.15407/jnpae2021.02.127
  4. D. Anchishkin, V. Gnatovskyy, D. Zhuravel, V. Karpenko, Relativistic Selfinteracting Particle-Antiparticle System of Bosons. Journal of Phys. and Electr. 28 (2), 3-18 (2020). DOI 10.15421/332016
  5. O.S. Stashko, D.V. Anchishkin, O.V. Savchuk, M.I. Gorenstein, Thermodynamic properties of interacting bosons with zero chemical potential. Journal of Phys. G: Nucl. Part. Phys. 48, No.5, 055106 (2021), (Q2). DOI: 10.1088/1361-6471/abd5a5
  6. K. A. Bugaev, O. V. Vitiuk, B. E. Grinyuk, N. S. Yakovenko, E. S. Zherebtsova, V. V. Sagun, O. I. Ivanytskyi, D. O. Savchenko, L. V. Bravina, D. B. Blaschke, G. R. Farrar, S. Kabana, S. V. Kuleshov, E. G. Nikonov, A.V.Taranenko, E. E. Zabrodin, and G. M. Zinovjev. Chemical freeze-out of light nuclei in high energy nuclear collisions and resolution of the hyper-triton chemical freeze-out puzzle. –J. Phys.: Conf. Ser. 1690 (2020) 012123 (6 p.) doi: 10.1088/1742-6596/1690/1/012123
  7. David Blashke, Larissa Bravina, Kyryll Bugaev, Glenis R. Farrar, Boris Grinyuk, Oleksii Ivanitskyi, Sonya Kabana, Sergey V. Kuleshov, Irina K. Potashnikova, Violetta Sagun, Arkadiy Taranenko, Oleksandr V.Vitiuk, Evgeny Zabrodin, Xiaoming Zhang, Daicui Zhou. Thermal production of sexaquarks in heavy-ion collisions. International Journal of Modern Physics A Vol. 36, No. 25, 2141005 (2021). (Q3/Q4) https://doi.org/10.1142/S0217751X21410050
  8. B. E. Grinyuk, K. A. Bugaev. About Conditions of Spatial Collapse in an Infinite System of Bose Particles. УФЖ, 2021, т. 66, № 12, с. 1024-1026 (Q4) https://doi.org/10.15407/ujpe66.12.1024
  9. A.V. Nesterov, Yu. A. Lashko, V. S. Vasilevsky, "Structure of the ground and excited states in Λ9Be nucleus", Nucl. Phys. A, vol. 1016 (2021) 122325 (24 pp.) (Q1/Q2) https://doi.org/10.1016/j.nuclphysa.2021.122325
  10. A.V. Nesterov, M. Solokha-Klymchak. "Properties of 4ΛH hypernucleus in three-cluster microscopic models", Ukr. J. Phys., vol. 66 (2021) № 10, p. 846-856 (Q3/Q4) https://doi.org/10.15407/ujpe66.10.846
  11. Н. Калжигитов, В.С. Василевский, Н.Ж. Такибаев, В.O. Курмангалиева. "Исследование эффектов кластерной поляризации в ядре 6Li", Известия НАН Республики Казахстан. Серия физ.-мат., т. 5 (2021) № 339, с. 25–32. https://doi.org/10.32014/2021.2518-1726.81
Препринти
  1. V.F. Kharchenko, Coulomb transition matrix with fractional values of interaction parameter, arXiv: 2105.13092 v1 [quant-ph] 27 May 2021, p.p. 1-4.
  2. D. Anchishkin, V. Gnatovskyy, D. Zhuravel, V. Karpenko, Selfinteracting Particle-Antiparticle System of Bosons, arXiv: 2102.02529 [nucl-th].
  3. K.A. Bugaev, O.V. Vitiuk, B.E. Grinyuk, P.P. Panasiuk, N.S. Yakovenko, E.S. Zherebtsova, V.V. Sagun, O.I. Ivanytskyi, L.V. Bravina, D.B. Blaschke, S. Kabana, S.V. Kuleshov, A.V. Taranenko, E.E. Zabrodin, and G.M. Zinovjev. Induced surface and curvature tension equation of state for hadron resonance gas in finite volumes and its relation to morphological thermodynamics. arXiv: 2104.05351v1 [hep-ph].
  4. Oleksandr V. Vitiuk, V.M. Pugatch, K.A. Bugaev, P.P. Panasiuk, Nazar Yakovenko, Boris Grinyuk, E.S. Zherebtsova, M. Blricher, L.V. Bravina, A.V. Taranenko, E.E. Zabrodin. Triple nuclear collisions – a new method to explore the matter properties under new extreme conditions. arXiv: 2108.02711v1 [hep-ph].
Монографії, статті в журналах, інші публікації
  1. V.F. Kharchenko. Analytical solutions for three-dimensional Coulomb transition matrix at negative energy and integer values of interaction parameter. – Canadian Journal of Physics, Vol. 98, No.4, 375-378(2020) https://doi.org/10.1139/cjp-2019-0338
  2. V.E. Kuzmichev, V.V. Kuzmichev. Uncertainty principle in quantum mechanics with Newton's gravity. – Eur. Phys. J. C, Vol. 80, No. 3, p. 248 (7 p.), 2020.
  3. B.E. Grinyuk, I.V. Simenog. On the Temperature Role in the Tunneling Process at the Low-Energy Nuclear Fusion. – Ukr. J. Phys. 2020, Vol.65, No. 11, p. 958-962.
  4. D. Zhuravel, D. Anchishkin, R. Hayn, P. Lombardo, St. Schäfer. Non-equilibrium electronic transport through a quantum dot with strong Coulomb repulsion in the presence of a magnetic field. – J. Phys.: Condens. Matter. 32, No. 16, p.165601 (2020).
  5. D. Duisenbay, N. Kalzhigitov, K. Katō, V.O. Kurmangaliyeva, N.Zh. Takibayev, V.S. Vasilevsky. Effects of the Coulomb interaction on parameters of resonance states in mirror three-cluster nuclei. – Nucl. Phys. A, 2020, vol. 996, 121692, (30 pp).
  6. V.S. Vasilevsky, Yu.A. Lashko. How the antisymmetrization affects a cluster-cluster interaction: two-cluster systems. –Ann. Phys., vol. 415, 168114, (22 pp) 2020.
  7. Yu.A. Lashko, V.S. Vasilevsky, G.F. Filippov. Influence of the Pauli principle on two-cluster potential energy. – In Proc. of the 24th European conference on few-body problems in physics, 2-4 September, 2019, the University of Surrey,Guildford, UK, SciPost Phys. Proc., 2020, vol. 3, 021, 9 pp.
  8. N. Kalzhigitov, N.Zh. Takibayev, V.S. Vasilevsky, E.M. Akzhigitova, V.O. Kurmangaliyeva. A microscopic two-cluster model of processes in 6Li. – News of the National Academy of sciences of the Republic of Kazakhstan, Phys.-Math. Series, 2020, vol. 4, N 332, pp. 86-94.
  9. S.Ya. Goroshenko, A.V. Nesterov, V.A. Nesterov. Complete numerical calculation of the interaction energy for two uniformly charged spheroids. Example of heavy ions. – Nucl. Phys. At. Energy, 21 (2020), 13-20.
  10. N. Takibayev, V.O. Kurmangaliyeva, K. Katō, V.S. Vasilevsky. Few-Body Reactions and Processes in Neutron Star Envelopes. –Springer Proceedings in Physics, 2020, vol. 238, pp. 157–161.
  11. Pierre Lombardo, Roland Hayn, Denis Zhuravel, Steffen Schäfer. Kondo-assisted switching between three conduction states in capacitively coupled quantum dots. – Phys. Rev. Research 2, 033387 (2020). doi: 10.1103/PhysRevResearch.2.033387
  12. K.A. Bugaev, A.I. Ivanitskyi, B.E. Grinyuk, I.P. Yakimenko. Bose-Einstein Condensation Phase Transition of Quantum Hard Spheres and New Relations between Bosonic and Fermionic Pressures. – Ukr. J. Phys. 2020, Vol.65, No. 11, p. 963-972.
  13. K.A. Bugaev, O.V. Vitiuk, B.E. Grinyuk, V.V. Sagun, N.S. Yakovenko, O.I. Ivanitskyi, G.M. Zinovjev, D.B. Blaschke, E.G. Nikonov, L.V. Bravina, E.E. Zabrodin, S. Kabana, S.V. Kuleshov, G.R. Farrar, E.S. Zherebtsova and A.V. Taranenko. Second virial coefficients of light nuclear clusters and their chemical freeze-out in nuclear collisions. – Euro. Phys. J. A 56, 293—1-15 (2020).
Препринти
  1. B.E. Grinyuk, K.A. Bugaev, V.V. Sagun, O.I. Ivanytskyi, D.L. Borisyuk, A.S. Zhokhin, G.M. Zinovjev, D.B. Blaschke, L.V. Bravina, E.E. Zabrodin, E. G. Nikonov, G. Farrar, S. Kabana, S.V. Kuleshov and A.V. Taranenko. Classical excluded volumes of loosely bound light (anti)nuclei and their chemical freeze-out in heavy ion collisions. – Int. J. Mod. Phys. E, p. 1-15; arXiv:2004.05481v1 [hep-ph] (2020).
  2. V.O. Kurmangaliyeva, N. Kalzhigitov, N. Takibayev, V.S. Vasilevsky. Resonance structure of 8Be with the two-cluster resonating group method. – а ArXiv e-prints nucl-th/2006.04525, (35 pp.), 2020.
  3. K.A. Bugaev, O.V. Vitiuk, B.E. Grinyuk, N.S. Yakovenko, E.S. Zherebtsova, V.V. Sagun, O.I. Ivanytskyi, D.O. Savchenko, L.V. Bravina, D.B. Blaschke, G.R. Farrar, S. Kabana, S.V. Kuleshov, E.G. Nikonov, A.V. Taranenko, E.E. Zabrodin, and G.M. Zinovjev. Chemical freeze-out of light nuclei in high energy nuclear collisions and resolution of the hyper-triton chemical freeze-out puzzle. – arXiv: 2011.09292v1 [nucl-th], 6 p., 18 Nov 2020.
  4. V.E. Kuzmichev, V.V. Kuzmichev. On the conditions for the classicality of a quantum particle. – arXiv:2007.11886 [quant-ph], 12p.
Доповіді на конференціях та семінарах
  1. K.A. Bugaev, B.E. Grinyuk, A.I. Ivanytskyi, V.V. Sagun, D.O. Savchenko, G.M. Zinovjev, O.V. Vitiuk, N.S. Yakovenko, E.G. Nikonov, L.V. Bravina, E.E. Zabrodin, S. Kabana, D.B. Blaschke, A.V. Taranenko and E.S. Zherebtsova, «Multiplicities of light nuclear clusters in high energy nuclear collisions and solution of the hyper-triton puzzle» at the International Conference on New Frontiers in Physics (ICNFP2020), Kolymbari, Crete, Greece, September 4-12, 2020 (запрошена секційна за проектом No. 0120U100935).
  2. K.A. Bugaev, B.E. Grinyuk, A.I. Ivanytskyi, V.V. Sagun, D.O. Savchenko, G.M. Zinovjev, O.V. Vitiuk, N.S. Yakovenko, E.G. Nikon, L.V. Bravina, E.E. Zabrodin, S. Kabana, D.B. Blaschke, A.V. Taranenko and E.S. Zherebtsova, «Chemical freeze-out of light nuclei in high energy nuclear collisions and resolution of the hyper-triton chemical freeze-out puzzle», invited seminar at the Kyiv Institute for Nuclear Research, Department of High Energy Physics, Kyiv, October 29, 2020 (запрошений семінар за проектом No. ЦО-5-1/2018 цільової програми).
Монографії, статті в журналах, інші публікації
  1. Yu.A. Sitenko, V.M. Gorkavenko. Induced vacuum magnetic flux in quantum spinor matter in the background of a topological defect in two-dimensional space, Phys. Rev. D 2019, Vol. 100, No.8, 085011 (P.1-36).
  2. Yu.A. Sitenko, V.M. Gorkavenko. Polarization of the vacuum of quantized spinor field by a topological defect in two-dimensional space, Ukr. J. Phys. 2019, Vol. 64, No. 11, 1069-1077 (Укр. фіз. журн. 2019, Vol. 64, No. 11, 1062-1069).
  3. V.E. Kuzmichev, V.V. Kuzmichev. Generalized uncertainty principle in quantum cosmology for the maximally symmetric space, Ukr. J. Phys., 2019, Vol. 64, No. 2, p. 100-108.
  4. В.Є. Кузьмичов, В.В. Кузьмичов. Узагальнений принцип невизначеності у квантовій космології, УФЖ, 2019, Vol. 64, No. 11, p. 1043-1046.
  5. В.Є. Кузьмичов, В.В. Кузьмичов. Квантові поправки до динаміки гравітаційної системи, УФЖ, 2019, Vol. 64, No. 12, p. 1135-1139.
  6. Babenko V., Pavlovych V., Gulik V. The pulsed subcritical amplifier of neutron flux driven by high-intensity neutron generator. Nuclear Technology and Radiation Protection, 2019, Vol. 34, No. 1, P. 1–12.
  7. Бабенко В.А., Петров Н.М. О свойствах бегущей константы связи сильного взаимодействия в области низких энергий. Ядерна фізика та енергетика, 2019, т. 20, № 1, с. 5–17. [Babenko V.A., Petrov N.M. Properties of the running coupling constant of strong interaction at low energies. Nuclear Physics and Atomic Energy, 2019, Vol. 20, No. 1, P. 5–17.]
  8. Бабенко В.А., Петров Н.М. О нарушении зарядовой независимости и зарядовой симметрии константы пион-нуклонной связи. Ядерная Физика, 2019, т. 82, № 6, с. 541–552. [Babenko V.A., Petrov N.M. On the breakdown of charge independence and charge symmetry of the pion-nucleon coupling constant. Physics of Atomic Nuclei, 2019, Vol. 82, No. 6, P. 662–672.]
  9. K.A. Bugaev, B.E. Grinyuk, A.I. Ivanytskyi, V.V. Sagun, D.O. Savchenko, G.M. Zinovjev, E.G. Nikonov, L.V. Bravina, E.E. Zabrodin, D.B. Blaschke, S. Kabana, A.V. Taranenko. On separate chemical freeze-outs of hadrons and light (anti)nuclei in high energy nuclear collisions. 2019, J.Phys.: Conf.Ser. 1390 012038 doi: 10.1088/1742-6596/1390/1/012038
  10. K. Bugaev, A. Ivanytskyi, V. Sagun, B. Grinyuk, D. Savchenko, G. Zinovjev, E. Nikonov, L. Bravina, E. Zabrodin, D. Blaschke, A. Taranenko, L. Turko. Hard-Core Radius of Nucleons within the Induced Surface Tension Approach, Universe 5 (2), 63 (2019).
  11. Yu.A. Lashko, V.S. Vasilevsky, G.F. Filippov. Properties of a potential energy matrix in oscillator basis,Ann. Phys., 2019, vol. 409, 167930, (26 pp.)
  12. V.S. Vasilevsky, K.Katō. On three-cluster disintegration of 9Ве, Phys. Sci. Thechnol., 2019, vol. 6, № 1, pp. 4-10.
  13. A.D. Duisenbay, N.Zh. Takibayev, V.S. Vasilevsky, V.O. Kurmangaliyeva, E.M. Akzhigitova. Form factors and density distributions of protons and neutrons in 7Li and 7Be, News of the National Academy of sciences of the Republic of Kazakhstan, Phys.-Math. Series, 2019, vol. 3, N 325, pp. 71-76.
Препринти
  1. V.F. Kharchenko. Coulomb transition matrix at negative energy and integer values of interaction parameter, arXiv: 1905.13479 [quant-ph] 31 May 2019. p.p. 1 - 7.
  2. V.E. Kuzmichev, V.V. Kuzmichev. Uncertainty principle in quantum mechanics with Newton's gravity, arXiv:1911.01176 [quant-ph] (2019), 10 p.
  3. Babenko V.A., Petrov N.M. On the Charge Dependence of the Pion-Nucleon Coupling Constant and Nucleon-Nucleon Low-Energy Scattering Parameters. arXiv:1908.10124 [hep-ph], 2019, 13 P.
  4. A.D. Duisenbay, N. Kalzhigitov, K. Katō, V.O. Kurmangaliyeva, N.Zh. Takibayev, V.S. Vasilevsky. Effects of the Coulomb interaction on parameters of resonance states in mirror three-cluster nuclei. arXiv: nucl-th/1905.07711, (54pp), 2019.
  5. V.S. Vasilevsky, Yu.A. Lashko. How the antisymmetrization affects a cluster-cluster interaction: two-cluster systems, arXiv: nucl-th/1909.07610, (45 pp), 2019.
Доповіді на конференціях та семінарах
  1. Yu.A. Lashko, V.S. Vasilevsky, G.F. Filippov.Influence of the Pauli principle on two-cluster potential energy.In Proc. of the 24th European conference on few-body problems in physics, 2-4 September, 2019, the University of Surrey,Guildford, UK, arXiv: nucl-th/1910.005046, (10 pp), 2019.
  2. S.Ya. Goroshchenko, A.V. Nesterov, V.A. Nesterov Complete numerical calculation of the interaction energy for two uniformly charged spheroids. Example of heavy ions. Abstracts of Conference Problems of theoretical and mathematical physics, September 24-26, 2019, Kyiv, Ukraine. P. 77.
  3. V.S. Vasilevsky, B.E. Grinyuk, D.V. Piatnytskyi. Structure Features of Mirror Nuclei 14С and 14О within a Five-Cluster Model. – Book of Abstructs of the Bogolyubov Kyiv Conference Problems of Theoretical and Mathematical Physics, 24-26 of September, Kyiv, 2019, p.81.
  4. Yu.A. Lashko, G.F. Filippov, V.S. Vasilevsky, Two-cluster potential energy and the Pauli principle, accepted for publication in Proc. of the 38th International Workshop on Nuclear Theory, June 23 – 29, 2019, Rila Mountains, Bulgaria, Heron Press, Sofia, Bulgaria, 2019.
  5. Yu.A. Sitenko. Field-theoretical formalism for quantum systems in extreme conditions (запрошена), Різдвяні дискусії 2019, Кафедра теоретичної фізики Львівського національного університету ім. Івана Франка, Львів, 10-11 січня 2019.
  6. Yu.A. Sitenko, V.M. Gorkavenko. Polarization of the vacuum of quantized spinor field by a topological defect in two-dimensional space (пленарна), XI Bolyai-Gauss-Lobachevsky Conference Non-Euclidean, non-commutative geometry and Quantum Physics, ІТФ НАН України, Київ, 19-24 травня 2019.
  7. Ю.A. Ситенко. Релятивістична квантова ферміонна матерія в екстремальних умовах (запрошена), Cемінар пам'яті П.І. Фоміна КВАНТОВА ТЕОРІЯ ПОЛЯ ТА КОСМОЛОГІЯ, Інститут прикладної фізики НАН України, Суми, 20 червня 2019.
  8. Yu.A. Sitenko. Quantum relativistic fermion matter in particle, astroparticle and condensed matter physics (запрошена), SEENET-MTP Assessment Meeting, ICTP, Trieste, Italy, 20-23 October 2019.
  9. V.V. Kuzmichev, V.E. Kuzmichev. Quantum corrections to the dynamics of the gravitational system in quantum cosmology XI Bolyai-Gauss-Lobachevsky (BGL-2019) Conference: Non-Euclidean, Non-Commutative Geometry and Quantum Physics (Kiev, Ukraine, May 19-24, 2019). Book of Abstracts. p. 22 (пленарна доповідь)
  10. V.E. Kuzmichev, V.V. Kuzmichev. Generalized uncertainty principle in quantum cosmology XI Bolyai-Gauss-Lobachevsky (BGL-2019) Conference: Non-Euclidean, Non-Commutative Geometry and Quantum Physics (Kiev, Ukraine, May 19-24, 2019). Book of Abstracts. p. 23 (пленарна доповідь)
  11. V.V. Kuzmichev, V.E. Kuzmichev. The matter-energy intensity distribution in a quantum gravitational system Bogolyubov Kyiv Conference Problems of Theoretical and Mathematical Physics (Kiev, Ukraine, September 24-26, 2019). Program & Abstracts. p. 31 (пленарна доповідь)
  12. Бабенко В.О., Петров М.М. Стосовно порушення зарядової незалежності та зарядової симетрії ядерних сил. Семінар пам'яті І. В. Сименога, 31 січня 2019 р., Інститут теоретичної фізики НАН України, Київ. (усна доповідь).
  13. Б.Є. Гринюк. 80 років від дня народження Івана Васильовича Сименога, науковця і вчителя. – Семінар, присвячений пам'яті Івана Васильовича Сименога. ІТФ ім.М.М.Боголюбова НАН України, 31 січня 2019 р., Київ. (усна доповідь)
  14. K.A. Bugaev, A.I. Ivanytskyi, V.V. Sagun, B.E. Grinyuk, D.O. Savchenko, G.M. Zinovjev, E.G. Nikonov, L.V. Bravina, E.E. Zabrodin, D.B. Blaschke, S. Kabana, and A.V. Taranenko. Possible signals of two QCD phase transitions at NICA-FAIR energies. EPJ Web of Conferences 204, 03001 (2019). doi:10.1051/epjconf/201920403001
  15. Б.Є. Гринюк, В.С. Василевський, Д.В. П'ятницький. Особливості структури найнижчих збуджених станів дзеркальних ядер 14С і 14О. – Семінар Проблеми теоретичної фізики, присвячений пам'яті академіка Олексія Ситенка. ІТФ ім. М. М. Боголюбова НАН України, 14 лютого 2019 р., Київ. (усна доповідь)
  16. V.S. Vasilevsky, B.E. Grinyuk, D. V. Piatnytskyi. Structure Features of Mirror Nuclei 14С and 14О within a Five-Cluster Model. – Bogolyubov Kyiv Conference Problems of Theoretical and Mathematical Physics, 24-26 of September, Kyiv. (стендова)
  17. D. Blaschke, L. Bravina, K. Bugaev, G. Farrar, B. Grinyuk, O. Ivanytskyi, S. Kabana, V. Sagun, A. Taranenko, E. Zabrodin, Xiaoming Zhang, and Daicui Zhou. Thermal Production of Sexaquarks in Heavy Ion Collisions. – Quark Matter 2019 (the XXVIII International Conference on Ultrarelativistic Nucleus-Nucleus Collisions), 3-9 of November, Wuhan, China, 2019. (poster)
  18. K.A. Bugaev, V.V. Sagun, B.E. Grinyuk, A.S. Zhokhin, A.I. Ivanytskyi, D.A. Savchenko, G.M. Zinovjev, E.G. Nikonov, L.V. Bravina, E.E. Zabrodin, S. Kabana, D.B. Blaschke and A.V. Taranenko, Updated signals of two QCD phase transitions in heavy ion collisions, at the 8-th International Conference on New Frontiers in Physics (ICNFP2019), Kolymbari, Crete, Greece, August 21-29, 2019. (invited section lecture)
  19. K.A. Bugaev, B.E. Grinyuk, A.I. Ivanytskyi, V.V. Sagun, A.S. Zhokhin, D.A. Savchenko, G.M. Zinovjev, E.G. Nikonov, L.V. Bravina, E.E. Zabrodin, S. Kabana, D.B. Blaschke and A.V. Taranenko, Classical excluded volume of loosely bound light (anti)nuclei and their chemical freeze-out in HIC, at the 8-th International Conference on New Frontiers in Physics (ICNFP2019), Kolymbari, Crete, Greece, August 21-29, 2019. (invited section talk)
  20. D. Blaschke, L. Bravina, K. Bugaev, G. Farrar, B. Grinyuk, O. Ivanytskyi, S. Kabana, V. Sagun, A.Taranenko, E. Zabrodin, Xiaoming Zhang and Daicui Zhou, Thermal production of Sexaquarks in Heavy Ion Collisions, at the 8-th International Conference on New Frontiers in Physics (ICNFP2019), Kolymbari, Crete, Greece, August 21-29, 2019. (invited section talk)
  21. K.A. Bugaev, V.V. Sagun, B.E. Grinyuk, A.S. Zhokhin, A.I. Ivanytskyi, D.A. Savchenko, G.M. Zinovjev, E.G. Nikonov, L.V. Bravina, E.E. Zabrodin, S. Kabana, D.B. Blaschke and A.V. Taranenko, Heavy ion collisions at NICA-FAIR energies and possible signals of two QCD phase transitions, at The II International Workshop on Theory of Hadronic Matter Under Extreme Conditions, Dubna, JINR, Russian Federation, 16-19 September 2019. (invited plenary talk)
  22. Yu.A. Lashko, G.F. Filippov, V.S. Vasilevsky, Two-cluster potential energy and the Pauli principle, 38th International Workshop on Nuclear Theory, June 23 – 29, 2019, Rila Mountains, Bulgaria, 2019 (пленарна).
  23. Yu.A. Lashko, G.F. Filippov, V.S. Vasilevsky, Influence of the Pauli principle on two-cluster potential energy, 24th European Few Body Conference, September 2-6, 2019, Guildford, Surrey, United Kingdom (усна доповідь).
  24. Yu.A. Lashko, V.S. Vasilevsky, G.F. Filippov, Role of the Pauli principle in cluster-cluster interaction, Bogolyubov Kyiv Conference Problems of theoretical and mathematical physics, Kyiv, September 24-26, 2019 (усна доповідь).
  25. Ю.А. Лашко, В.С. Василевський, Г.Ф. Філіппов. Властивості матриці потенціальної енергії двочастинкової системи, Семінар присвячений памяті І. В. Сименога,ІТФ ім. М.М. Боголюбова НАН України, 31січня 2019 р. (Пленарна).
  26. В.С. Василевський, К. Като. Загадковий резонанс та фоторозщеплення 9Ве, Семінар Проблеми теоретичної фізики присвячений пам'яті академіка О.Г. Ситенка, ІТФ ім. М.М. Боголюбова НАН України, 14лютого 2019 р. (Пленарна).
  27. A.D. Duisenbay, N. Kalzhigitov, K. Katō, V.O. Kurmangaliyeva, N.Zh. Takibayev, V.S. Vasilevsky. Effects of the Coulomb interaction on parameters of resonance states in mirror three-cluster nuclei, The 6th International workshop Nuclear Physics, Nuclear Astrophysics and Cosmic Rays,Almaty, Kazakhstan, 14-18 April, 2019. (Пленарна).
  28. A.D. Duisenbay, N.Zh. Takibayev, V.S. Vasilevsky. Application of the resonating group method for studying the structure and reactions in 7Li and 7Be, The 6th International Workshop Nuclear Physics, Nuclear Astrophysics and Cosmic Rays, Almaty, Kazakhstan, 16-18 April 2019, Al-Farabi Kazakh National University.(Пленарна).
  29. N. Kalzhigitov, N.Zh. Takibayev, V.S. Vasilevsky Investigation of processes in 6Li within the resonating group method., The 6th International Workshop Nuclear Physics, Nuclear Astrophysics and Cosmic Rays, Almaty, Kazakhstan, 16-18April 2019,Al-Farabi Kazakh National University. (Пленарна).
  30. K. Katō, N. Takibayev, V.S. Vasilevsky. Symplectic Coherent-State Basis in the OCM Calculations of Nuclear Cluster System,The 6th International workshop Nuclear Physics,Nuclear Astrophysics and Cosmic Rays,Almaty, Kazakhstan, 14-18 April, 2019,Al-Farabi Kazakh National University. (Пленарна).
  31. Yu.A. Lashko, V.S. Vasilevsky, G.F. Filippov. Two-Cluster Potential Energy and the Pauli Principle. In Proc. of the 36th International Workshop on Nuclear Theory, 25 June – 1 July 2019, the Rila Mountains, Bulgaria, Book of Abstracts p.25. (Пленарна).
  32. Yu.A. Lashko, V.S. Vasilevsky, G.F. Filippov. Influence of the Pauli principle on two-cluster potential energy.The 24th European conference on few-body problems in physics, 2-4 September, 2019, the University of Surrey,Guildford, UK. (усна).
  33. V.S. Vasilevsky, A.D. Duisenbay, N. Kalzhigitov, K. Katō, V.O. Kurmangaliyeva, N.Zh. Takibayev. Effects of the Coulomb interaction on parameters of resonance states in mirror three-cluster nuclei, The Bogolyubov Kyiv Conference, Problems of Theoretical and Mathematical Physics, Bogolyubov Institute for Theoretical Physics, September 24-26, Kyiv,Ukraine. (усна).
  34. Yu.A. Lashko, V.S. Vasilevsky, G.F. Filippov. Role of the Pauli principle in cluster-cluster interactionThe Bogolyubov Kyiv Conference, Problems of Theoretical and Mathematical Physics, Bogolyubov Institute for Theoretical Physics, September 24-26, Kyiv,Ukraine.(усна).
  35. S.Ya. Goroshchenko, A.V. Nesterov, V.A. Nesterov, Conference Problems of theoretical and mathematical physics, September 24-26, 2019, Kyiv, Ukraine. P. (стендова).
Монографії, статті в журналах, інші публікації
  1. Yu.A. Sitenko. Chiral effects in magnetized quantum spinor matter in particle and astroparticle physics, Intern. J. Mod. Phys. A, 2018, Vol.33, No. 34, 1845020 (13 pp.).
  2. Yu.A. Sitenko, V.M. Gorkavenko. Properties of the ground state of electronic excitations in carbon-like nanocones, Low Temp. Phys. 2018, Vol. 44, No. 12, 1261-1271 /Fiz. Nizk. Temp., 2018, Vol. 44, No. 12, 1618-1629.
  3. Yu.A. Sitenko, V.M. Gorkavenko. Non-Euclidean geometry, nontrivial topology and quantum vacuum effects, Universe, 2018, Vol. 4, No. 2, 23, (12 pp.).
  4. V.F. Kharchenko. Partial wave off-shell Coulombamplitudes at excited-state energy, Canadian Journal of Physics, Vol. 96, No.8 (2018 ) p.p. 933 - 937.
  5. В.А. Бабенко, Н.М. Петров. Об оценке массы странного кварка на основе экспериментальных данных об октете легчайших барионов. Ядерна фізика та енергетика, 2018, т. 19, № 3, с. 227-236. [Babenko V. A., Petrov N. M. On the estimation of the strange quark mass from the experimental data on the light baryon octet. Nuclear Physics and Atomic Energy, 2018, Vol. 19, No. 3, P. 227-236.].
  6. В.А. Бабенко, В.Н. Павлович. Изучение свойств самоподдерживающейся цепной ядерной реакции в топливосодержащих массах объекта Укрытие в случае переменной скорости поступления воды. Ядерна фізика та енергетика, 2018, т. 19, № 1, с. 21-30. [Babenko V.A., Pavlovych V N. Study of the properties of self-sustaining nuclear chain reaction in the fuel-containing masses of the Ukryttya object for the case of varying velocity of water inflow. Nuclear Physics and Atomic Energy, 2018, Vol. 19, No. 1, P. 21-30.]
  7. V.A. Babenko, V.I. Gulik, V.M. Pavlovych. The pulsed subcritical amplifier of neutron flux driven by high-intensity neutron generator. Nuclear Technology and Radiation Protection, 2018, Vol. 33, No. 3.
  8. V.E. Kuzmichev, V.V. Kuzmichev. Quantum dynamics of the early universe, Ukr. J. Phys., V. 63, No. 3, p. 196-203 (2018).
  9. V.E. Kuzmichev, V.V. Kuzmichev. The matter-energy intensity distribution in a quantum gravitational system, Quantum Stud.: Math. Found., V. 5, 245-255 (2018).
  10. V.S. Vasilevsky, Yu. A. Lashko, G.F. Filippov. Two- and three-cluster decays of light nuclei with the hyperspherical harmonics, Phys.Rev.C., 2018, vol. 97, p.064605 (16 pages)
  11. V.S. Vasilevsky, K. Katō, N. Takibayev.Systematic investigation of the Hoyle-analog states in light nuclei, Phys. Rev. C, vol. 98, N2, 024325, (14 pp), 2108;
Доповіді на конференціях та семінарах
  1. V.S. Vasilevsky, K. Katō, N. Takibayev. The Hoyle-analog states in light nuclei, Proc. of the 4th International workshop State of the Art in Nuclear Cluster Physics, Galveston, Texas, USA, 14-18 May, 2018, AIP Conference Proceeding, vol. 2038, N1, 020022(8 pp), 2018.
  2. Yu.A. Lashko, G.F. Filippov, V.S. Vasilevsky. Democratic and nondemocratic motion of three clusters with the hyperspherical harmonics. In Proc. of the 36th International Workshop on Nuclear Theory, 25 June - 1 July 2017, the Rila Mountains, Bulgaria, Heron Press, Sofia, Bulgaria, eds. M. Gaidarov and N. Minkov, 2017, vol. 36, pp. 244-253.
Монографії, статті в журналах, інші публікації
  1. V.F. Kharchenko. Solution of the Lippmann-Schwinger equation for a partial wave transition matrix with repulsive Coulomb interaction, Ukr. J. Phys., Vol. 62 No.3 (2017) p.p. 263 - 270.
  2. 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.
  3. V.E. Kuzmichev, V.V. Kuzmichev. The matter-energy intensity distribution in a quantum gravitational system, Quantum Stud.: Math. Found. (2017). https://doi.org/10.1007/s40509-017-0115-0
  4. Бабенко В.А., Петров Н.М. О связи между зарядовой и нейтральной константами пион-нуклонной связи в модели Юкавы. Письма в ЭЧАЯ, 2017, т. 14, № 1, с. 26-39.
  5. Бабенко В.А., Петров Н.М. О влиянии различия масс пи-мезонов (π±-π0) и нуклонов (n-p) на нарушение зарядовой независимости ядерных сил. Ядерна фізика та енергетика, 2017, т. 18, № 1, с. 13-21.
  6. Yu.A. Lashko, G.F. Filippov, V.S. Vasilevsky. Microscopic three-cluster model of 10Be, Nucl. Phys., A958, 2017, pp. 78-100.
  7. V.S. Vasilevsky, N.Zh. Takibayev, A.D. Duisenbay. Microscopic description of 8Li and 8B nuclei within three-cluster model, Ukr. J. Phys., 62, N6, 2017, pp. 461-472.
  8. V.S. Vasilevsky, K. Katō, N.Zh. Takibayev. Formation and decay of resonance states in 9Be and 9B nuclei. Microscopic three-cluster model investigations, Phys. Rev. C, 2017, 96, №3, 034322, 14 pp.
  9. K. Katō, V.S. Vasilevsky, N.Zh. Takibayev. Nuclear Cluster Dynamics in Nucleo-Synthesis in Neutron Stars, in book Neutron Stars. Physics, Properties and Dynamics, editors N. Zh. Takibayev and K. Boshkayev, Nova Science Publishers, Inc., New-York, Chapter 6, 2017, pp. 173-226.
  10. B.E. Grinyuk, D.V. Piatnytskyi. Structure of 14N nucleus within a five-cluster model. Ukr. J. Phys., vol. 62, № 10, 2017, p. 835-844.
Монографії, статті в журналах, інші публікації
  1. Yu.A. Sitenko. Hot dense magnetized ultrarelativistic spinor matter in a slab, Phys.Rev.D - 2016. - V.94, No.8. - 085014 (P.1-14).
  2. Yu.A. Sitenko. On the chiral separation effect, Europhys.Lett. - 2016. - V.114, No.20. - 61001 (P.1-4).
  3. Yu.A. Sitenko. Self-adjointness and the Casimir effect with confined quantized spinor matter, J.Phys.Conf.Series - 2016 - V.670. - 012048 (P.1-15).
  4. V.M. Gorkavenko, I.V. Ivanchenko, Yu.A. Sitenko. Induced vacuum current and magnetic field in the background of a vortex, Intern.J.Mod.Phys.A - 2016 - V.31, No.6 - 1650017 (P.1-11).
  5. Yu.A. Sitenko. Hot dense magnetized spinor matter in particle and astroparticle physics: the role of boundaries, Odessa Astronomical Publications - 2016. - V.29. - 12-18.
  6. Yu.A.Sitenko, V.M.Gorkavenko, Self-adjoitness, confinement and the Casimir effect, Facta Universitatis. Series Physics, Chemistry and Technology - 2016 - V. 14, No. 3 - 319-335.
  7. V.F. Kharchenko. Analytical expressions for partial wave two-body Coulomb transition matrices at ground -state energy, Annals of Physics, Vol. 374 ( 2016 ) p.p. 16 - 26.
  8. Бабенко В.А., Петров Н.М. Изучение зарядовой зависимости пион-нуклонной константы связи с использованием данных о нуклон-нуклонном взаимодействии при низких энергиях. Ядерная Физика, 2016, т. 79, № 1, с. 8-12.
  9. Бабенко В.А., Петров Н.М. О нарушении изоспиновой инвариантности константы пион-нуклонной связи и длины нуклон-нуклонного рассеяния. Ядерна фізика та енергетика, 2016, т. 17, № 2, с. 143-149.
  10. Бабенко В.А., Петров Н.М. О связи между зарядовой и нейтральной константами пион-нуклонной связи в модели Юкавы. Письма в ЭЧАЯ, 2017, т. 14, № 1, с. 1-14.
  11. D.V. Piatnytskyi. Structure of 14C and 14О nuclei calculated in the variational approach. УФЖ, т. 61, № 8, 2016, с. 674-680.
© 2024
Інститут теоретичної фізики ім. М.М. Боголюбова НАН України
03143 Україна, Київ, вул. Метрологічна 14-б
Телефон: +380 (44) 521 34 23
Email: itp@bitp.kiev.ua