Biography

Prof. Oleg V. Angelsky

Director of Institute of Physical, Technical and Computer Science (Chernivtsy National University named after Yurij Fedkovich)


Email: [email protected]


Qualifications

1991 Prof., Chernivtsi State University, Ukraine, Optics

1990 Dr. of Science, Chernivtsi State University, USSR, Optics

1983 Ph.D., Chernivtsi State University, USSR, Physical electronics

1979 M.D, Chernivtsi State University, USSR, Opto-Electronics Devices


Publications (Selected)

  1. Angelsky O V, Maksymiak P P, Shchukin S P. Comparative Analysis of Graded-Index and Step-Index Optical Fibers for Sted Microscopy[J]. Ukrainian Journal of Physical Optics, 2026, 27(1): 01027-01039.
  2. Angelsky O V, Zenkova C Y, Ivanskyi D I, et al. Monte Carlo Model for Describing Photon Interactions with Biological Tissue in New Approaches of Polarization-Sensitive Optical Coherence Tomography[J]. Optical Memory and Neural Networks, 2025, 34(1): 30-48.
  3. ZHENG J U N, ZHANG X. New solutions for polarization-sensitive optical coherence tomography[J]. Ukr. J. Phys. Opt, 2025, 26(3): 03067.
  4. Angelsky O V, Bekshaev A Y, Zenkova C Y, et al. Comprehensive Investigation of the Eye‐Cornea Structure Based on the Extended Techniques of Polarization‐Sensitive Optical Coherence Tomography[J]. Journal of Biophotonics, 2025: e202500101.
  5. Zenkova C, Angelsky O, Ivanskyi D. New possibilities of polarization-sensitive optical coherence tomography using geometric phase approach for diagnostics of thin surface (subsurface) biological layers[J]. Optica Applicata, 2024, 54(3).
  6. Angelsky O V, Bekshaev A Y, Maksimyak P P, et al. Correlation and singular optics for diagnostics of structured light and condensed matter: time-stationary and spatio-temporal approaches[J]. Frontiers in Physics, 2024, 12: 1383256.
  7. Angelsky O V, Bekshaev A Y, Zenkova C Y, et al. Modeling of the high-resolution optical-coherence diagnostics of bi-refringent biological tissues[J]. Frontiers in Physics, 2023, 11: 1260830.
  8. Angelsky O V, Mokhun I I, Bekshaev A Y, et al. Polarization singularities: Topological and dynamical aspects[J]. Frontiers in Physics, 2023, 11: 1147788.
  9. Angelsky O V, Bekshaev A Y, Vasnetsov M V, et al. Optical phase singularities: Physical nature, manifestations and applications[J]. Frontiers in Physics, 2022, 10: 1060787.
  10. Angelsky O V, Bekshaev A Y, Zenkova C Y, et al. Correlation optics, coherence and optical singularities: Basic concepts and practical applications[J]. Frontiers in Physics, 2022, 10: 924508.
  11. Angelsky O V, Bekshaev A Y, Zenkova C Y, et al. Fluorescence record diagnostics of 3D rough-surface landscapes with nano-scale inhomogeneities[J]. Frontiers in Physics, 2022, 9: 787821.
  12. Angelsky O V, Bekshaev A Y, Mokhun I I, et al. Review on the structured light properties: rotational features and singularities[J]. Opto-Electronics Review, 2022, 30(2): e140860.
  13. Angelsky O V, Bekshaev A Y, Dragan G S, et al. Structured light control and diagnostics using optical crystals[J]. Frontiers in Physics, 2021, 9: 715045.
  14. Bekshaev A Y, Angelsky O V, Zheng J, et al. Microscopic analysis of the energy, momentum, and spin distributions in a surface plasmon-polariton wave[J]. Optical Materials Express, 2021, 11(7): 2165-2191.
  15. Angelsky O V, Zenkova C Y, Hanson S G, et al. Random object optical field diagnostics by using carbon nanoparticles[J]. Optics Express, 2021, 29(2): 916-928.
  16. Angelsky O V, Bekshaev A Y, Hanson S G, et al. Structured light: ideas and concepts[J]. Frontiers in Physics, 2020, 8: 114.
  17. Angelsky O V, Zenkova C Y, Hanson S G, et al. Extraordinary manifestation of evanescent wave in biomedical application[J]. Frontiers in Physics, 2020, 8: 159.
  18. Ivashko V, Angelsky O, Maksimyak P. Monte Carlo modeling of ferromagnetism of nano-graphene monolayer within Ising model[J]. Journal of Magnetism and Magnetic Materials, 2019, 492: 165617.
  19. Ushenko V A, Sdobnov A Y, Mishalov W D, et al. Biomedical applications of Jones-matrix tomography to polycrystalline films of biological fluids[J]. Journal of Innovative Optical Health Sciences, 2019, 12(06): 1950017.
  20. Angelsky O V, Maksymyak P P, Zenkova C Y, et al. Peculiarities of control of erythrocytes moving in an evanescent field[J]. Journal of Biomedical Optics, 2019, 24(5): 055002-055002.
  21. Angelsky O V, Zenkova C Y, Maksymyak P P, et al. Peculiarities of energy circulation in evanescent field. Application for red blood cells[J]. Optical Memory and Neural Networks, 2019, 28(1): 11-20.
  22. Ushenko V, Sdobnov A, Syvokorovskaya A, et al. 3D Mueller-matrix diffusive tomography of polycrystalline blood films for cancer diagnosis[C]//Photonics. MDPI, 2018, 5(4): 54.
  23. Angelsky O V, Zenkova C Y, Ivansky D I. Mechanical action of the transverse spin momentum of an evanescent wave on gold nanoparticles in biological objects media[J]. Journal of Optoelectronics and Advanced Materials, 2018, 20(May-June 2018): 217-223.
  24. Angelsky O V, Bekshaev A Y, Maksimyak P P, et al. Low-temperature laser-stimulated controllable generation of micro-bubbles in a water suspension of absorptive colloid particles[J]. Optics Express, 2018, 26(11): 13995-14009.
  25. Angelsky O V, Bekshaev A Y, Maksimyak P P, et al. Controllable generation and manipulation of micro-bubbles in water with absorptive colloid particles by CW laser radiation[J]. Optics Express, 2017, 25(5): 5232-5243.
  26. Garazdyuk M S, Bachinskyi V T, Vanchulyak O Y, et al. Polarization-phase images of liquor polycrystalline films in determining time of death[J]. Applied optics, 2016, 55(12): B67-B71.
  27. Angelsky O V, Bekshaev A Y, Maksimyak P P, et al. Measurement of small light absorption in microparticles by means of optically induced rotation[J]. Optics Express, 2015, 23(6): 7152-7163.


Profile Details

https://www.linkedin.com/in/oleg-angelsky-744395132/?originalSubdomain=ua

https://www.researchgate.net/profile/Oleg-Angelsky

WoS ResearcherID: O-7633-2019


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