Інститут фізико-технічних та комп'ютерних наук Чернівецького Національного Університету імені Юрія Федьковича

Кафедра професійної та технологічної освіти і загальної фізики

Ключові публікації

  1. Кондрюк Д.В., Крамар В.М. Залежність енергії екситонних переходів у наноплівках AlxGa1–xAs/ GaAs/AlxGa1–xAs від товщини, концентрації та температури // УФЖ. – 2015. – Т. 60, № 5. – С. 548-567.

  2. V.M. Kramar, O.V. Pugantseva, and A.V. Derevyanchuk. Spatial confinement, self-polarization and exciton–phohon interaction effect on the location of exciton line in lead iodide nanofilms // Low Temperature Physics – 2014. –V. 40, № 8. – P. 981-985.

  3.  V.M. Kramar, O.V. Pugantseva. Influence of effects of semipolarization and exciton-phonon interactions on the exciton energy in lead iodide nanofilms // Russian Phys. Journ. – 2014. – V. 57, № 4. – P. 545-553.

  4. Gudyma Iu. Size effects in spin-crossover nanoparticles in framework of 2D and 3D Ising-like breathing crystal field model / Iu. Gudyma, A. Maksymov, L. Spinu // Applied Surface Science –2015. – V. 352. – Pages 60–65.
  5. Gudyma Iu. Spin-crossover nanocrystals and Ising model / Iu. Gudyma, A. Maksymov, V. Ivashko // Nanoplasmonics, Nano-Optics, Nanocomposites, and Surface Studies / edited by O. Fesenko, L. Yatsenko. Springer Proceedings in Physics 167 – Cham: Springer International Publishing Switzerland, 2015. – Chapter 10. – P. 165-192 
  6. Gudyma Iu. Study of pressure influence on thermal transition in spin-crossover nanomaterials / Iurii V Gudyma, Artur Iu Maksymov, Victor V Ivashko // Nanoscale Research Letters –2014. – V. 9. 
  7. Gudyma Iu. Kinetics of nonequilibrium transition in spin-crossover compounds / Iu. Gudyma, C. Enachescu, A. Maksymov // Nanocomposites, Nanophotonics, Nanobiotechnology, and Applications / edited by O. Fesenko, L. Yatsenko. – Cham: Springer International Publishing, 2015. – Chapter 29. – P. 375-401.
  8. Gudyma Iu. Diffusionless phase transition with two order parameters in spin-crossover solids / Iurii Gudyma, Victor Ivashko, Jorge Linares // Journal of Applied Physics 116, 173509 (2014) (7 pages) .
  9. Gudyma Iu. V. Ergodicity breaking induced by external coupled spatial-time noise processes / Iurii V. Gudyma, Petro M. Kruglenko // Eur. Phys. J. B (2014) 87, 205 (4 pages).
  10. Gudyma Iu. Stochastic resonance in bistable spin-crossover compounds with light-induced transitions/ Iu. Gudyma, A. Maksymov, M. Dimian // Phys. Rev. E – 2014. – V.90. – 052135 (8 pages) .
  11. Gudyma Iu. Phase transition in spin-crossover compounds in the breathing crystal field model / Iu. Gudyma, A. Maksymov, C. Enachescu // Phys. Rev. B – 2014. – V.89. – 224412.
  12. Gudyma Iu. Stochastic kinetics of photoinduced phase transitions in spin-crossover solids / Iu. Gudyma, A. Maksymov, M.Dimian // Phys. Rev. E – 2013. – V.88. – 042111
  13. R.D. Vengrenovich. Size distribution of nanoparticles of ZnO and SnS in the frame of Lifshits-Slezov-Wagner modified theory // R.D. Vengrenovich, B.V. Ivanskii, I.I. Panko, M.O. Stasyk //J. Phys. Chem. C, – 2013. – Vol.117, №26. – P. 13681–13687.
  14. R.D. Vengrenovich, B.V. Ivanskii, M.O. Stasyk, I.I. Panko. On the size distribution in three-dimensional quantum-dot crystals // Semiconductor structures, low-dimensional systems, and quantum phenomena. – 2014. Vol. 48, №6. – P. 783-791.
  15. R.D. Vengrenovich. Interrelations between technology for obtaining quantum dots and optoelectronic properties of semiconductors / R.D. Vengrenovich, B.V. Ivanskii, S.V. Yarema, I.I. Panko, M.O. Stasyk, A.V. Moskalyuk // Applied Optics. – 2014. – Vol. 53, №10. – P. B87-B92.
  16. R. D. Vengrenovich. Ostwald Ripening of the Platinum Nanoparticles in the Framework of the Modified LSW Theory / R. D. Vengrenovich, B. V. Ivanskii, I. I. Panko, S. V. Yarema, V. I. Kryvetskyi, M. O. Stasyk // Journal of Nanomaterials. – 2014. – Vol. 2014. ID 821584 (7 pages).
  17. Ivanskii Bohdan V. Wagner-Vengrenovich Distribution / Bohdan V. Ivanskii, Anatolii V. Moskalyuk, Sergey V. Yarema, Igor I. Panko, Miroslav O. Stasyk // ISRN Nanomaterials. – 2013. – Vol. 2013 (2013). - 8 pages.
  18. Vengrenovich R.D. Influence of mechanisms and kinetics of growing ZnO nanocrystals from oversaturated solutions on their optoelectronic properties / R.D. Vengrenovich, B.V. Ivanskii, I.I. Panko, M.O. Stasyk, I.V. Fesiv // Proc. of SPIE. – 2013. – Vol. 9066. – P. 90661L(1-9).
  19. D.V. Kondryuk, A.V. Derevyanchuk, V.M. Kramar. Temperature transformations of optical spectra in semiconductor flat heterostructures with quantum wells // Appl. Opt. – 2016. – V. 55, № 12. – P. B49-B55. [doi: 10.1364/AO.55.000B49]
  20. Gudyma Iu. Phenomenological Models of Photoinduced Transition in Spin-Crossover Materials / Iu. Gudyma, A. Maksymov // Nanophysics, Nanophotonics, Surface Studies, and Applications / edited by O. Fesenko, L. Yatsenko. Springer Proceedings in Physics 183 – Cham: Springer International Publishing Switzerland, 2016.  – Chapter 6. – P. 49-66  [10.1007/978-3-319-30737-4_6]
  21. Gudyma Iu. Spin-crossover molecular solids beyond rigid crystal approximation/ Iurii Gudyma, Victor Ivashko // Nanoscale Research Letters. – 2016.  – V.11. – 196 (8 pages) [10.1186/s11671-016-1398-5]
  22. Gudyma Iu. Hysteretic behavior of spin-crossover noise driven system / Iurii Gudyma, Artur Maksymov, Mihai Dimian // Physica B. – 2016. – V.486. – P. 44-47  [http://dx.doi.org/10.1016/j.physb.2016.01.019]
  23. Gudyma Iu. Pressure effect on hysteresis in spin-crossover solid materials / Iurii Gudyma, Victor Ivashko, Mihai Dimian // Physica B. – 2016. – V.486. – P. 40-43  [http://dx.doi.org/10.1016/j.physb.2015.12.042]
  24. Vengrenovich R.D. To the Coarsening Mechanism of Pt Nanoparticles During Sintering / R.D. Vengrenovich, B.V. Ivanskii, I.I. Panko, A.V. Moskaliuk, S.V. Yarema, V.I. Kryvetskyi, M.O. Stasyk // Rom. Journ. Phys. – 2016. – Vol. 61, N 3–4. P. 553–566.
  25. Ivanskyi B.V. To the theory of Ostwald ripening in metallic alloys / B.V. Ivanskii, R.D. Vengrenovich // The Physics of Metals and Metallography. – 2016. – Vol. 117, №8. – С. 756–765.