en

Сотрудник подразделения

Максим Сергеевич Куля

кандидат физико-математических наук

Университет ИТМО

Публикации

  1. 34Tsypkin A.N., Zhukova M., Melnik M., Vorontsova I., Kulya M.S., Putilin S.E., Kozlov S.A., Choudhary S., Boyd R.W. Giant Third-Order Nonlinear Response of Liquids at Terahertz Frequencies // Physical Review Applied - 2021, Vol. 15, No. 5, pp. 054009 [IF: 4.808, SJR: 1.883]
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  2. 33Kulya M.S., Katkovnik V.Y., Egiazarian K., Petrov N.V. Features of correlation measurements of the parameters of pulsed hyperspectral optical fields using an asymmetric interferometer // Quantum Electronics - 2020, Vol. 50, No. 7, pp. 679-682 [IF: 1.119, SJR: 0.418]
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  3. 32Kulya M.S., Katkovnik V.Y., Egiazarian K., Petrov N.V. Complex-domain sparse imaging in terahertz pulse time-domain holography with balance detection // Proceedings of SPIE - 2020, Vol. 11279, pp. 1127921 [SJR: 0.192]
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  4. 31Kulya M.S., Odlyanitskiy E.L., Cassar Q., Mustafin I.A., Trukhin V.N., Gavrilova P.G., Korolev D.V., Kononova Y.A., Balbekin N.S., Mounaix P., Guillet J., Petrov N.V., Smolyanskaya O.A. Fast terahertz spectroscopic holographic assessment of optical properties of diabetic blood plasma // Journal of Infrared, Millimeter, and Terahertz Waves - 2020, Vol. 41, No. 9, pp. 1041-1056 [IF: 2.54, SJR: 0.615]
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    A new method for diagnosis of diabetes mellitus is proposed, which uses for measurement a lyophilized blood plasma sample prepared in the form of a pellet. The paper develops a methodology for fast spectroscopic measurements of such pellets with terahertz pulse time-domain holography. For that reason, blood plasma pellets were experimentally measured by terahertz time-domain spectroscopy system in transmission mode and its characteristics were obtained to be then used in numerical simulation of pulse terahertz hologram formation and extraction of its optical properties. Thus, a demonstration of the proof-of-concept was given for the techniques of pellet inspection, which contains information about the presence of glycated proteins, reflecting a diabetic pathology.

  5. 30Liu X., Kulya M.S., Petrov N.V., Grachev Y.V., Song M., Tcypkin A.N., Kozlov S.A., Zhang X.C. Spectral Fresnel filter for pulsed broadband terahertz radiation // AIP Advances - 2020, Vol. 10, No. 12, pp. 24456 [IF: 1.568, SJR: 0.421]
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  6. 29Odlyanitskiy E.L., Kulya M.S., Cassar Q., Mustafin I.A., Trukhin V.N., Korolev D.V., Kononova Y.A., Mounaix P., Guillet J.P., Petrov N.V., Smolyanskaya O.A. Reconstruction of optical parameters for blood plasma pellets using pulse terahertz holography method // Proceedings - International Conference Laser Optics 2020, ICLO 2020 - 2020, pp. 9285619
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  7. 28Куля М.С., Катковник В.Я., Егизарян К., Петров Н.В. Об особенностях корреляционных измерений параметров импульсных гиперспектральных оптических полей с использованием асимметричного интерферометра // Квантовая электроника - 2020. - Т. 50. - № 7. - С. 679-682 [IF: 0.959]
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  8. 27Balbekin N.S., Kulya M.S., Belashov A.V., Gorodetsky A., Petrov N.V. Increasing the resolution of the reconstructed image in terahertz pulse time-domain holography // Scientific Reports - 2019, Vol. 9, pp. 180 [IF: 4.259]
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  9. 26Belashov A.V., Kulya M.S., Balbekin N.S., Gorodetsky A.A., Petrov N.V. Effect of object thickness on ultrashort pulse diffraction // Applied Optics - 2019, Vol. 58, No. 34, pp. 9434-9442 [IF: 1.65, SJR: 0.668]
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  10. 25Kulia M.S., Petrov N.V., Tsypkin A., Egiazarian K., Katkovnik V. Hyperspectral data denoising for terahertz pulse time-domain holography // Optics express - 2019, Vol. 27, No. 13, pp. 18456-18476 [IF: 3.307, SJR: 1.394]
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  11. 24Kulya M., Semenova V., Gorodetsky A., Bespalov V.G., Petrov N.V. Spatio-temporal and spatiospectral metrology of terahertz broadband uniformly topologically charged vortex beams // Applied Optics - 2019, Vol. 58, No. 5, pp. A90-A100 [IF: 1.65]
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  12. 23Turov A.T., Kulya M.S., Petrov N.V., Gorodetsky A.A. Resolution and contrast in terahertz pulse time-domain holographic reconstruction // Applied Optics - 2019, Vol. 58, No. 34, pp. G231-G240 [IF: 1.65, SJR: 0.668]
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  13. 22Balbekin N.S., Kulya M.S., Gorodetsky A.A., Petrov N.V. Solution for reconstruction enhancement of pulsed broadband THz holograms recorded with small area detectors // Proceedings of SPIE - 2018, Vol. 10677, pp. 106773J [SJR: 0.192]
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  14. 21Kulya M., Semenova V.A., Bespalov V.G., Petrov N.V. On terahertz pulsed broadband Gauss-Bessel beam free-space propagation // Scientific Reports - 2018, Vol. 8, pp. 1390 [IF: 4.259, SJR: 1.24]
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  15. 20Petrov N.V., Balbekin N.S., Kulya M.S., Gorodetsky A.A. Reconstruction enhancement of noisy data in terahertz pulse time-domain holography by iterative procedure // Proceedings of SPIE - 2018, Vol. 10677, pp. 1067721 [SJR: 0.192]
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  16. 19Petrov N.V., Bespalov V.G., Kulya M.S. Terahertz pulse time-domain holography for studying of broadband beams propagation dynamics // Optics InfoBase Conference Papers - 2018, Vol. Part F100-DH, pp. DTu2F.7
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  17. 18Smolyanskaya O.A., Cassar Q., Kulia M.S., Petrov N.V., Zaytsev K.I., Lepeshkin A.I., Guillet J., Mounaix P., Tuchin V.V. Interaction of terahertz radiation with tissue phantoms: Numerical and experimental studies // EPJ Web of Conferences - 2018, Vol. 195, pp. 10012 [SJR: 0.184]
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  18. 17Smolyanskaya O.A., Schelkanova I.J., Kulya M.S., Odlyanitskiy E.L., Goryachev I.S., Tcypkin A.N., Grachev Y.V., Toropova Y.G., Tuchin V.V. Glycerol dehydration of native and diabetic animal tissues studied by THz-TDS and NMR methods // Biomedical Optics Express - 2018, Vol. 9, No. 3, pp. 1198-1215 [IF: 3.337, SJR: 1.362]
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  19. 16Turov A.T., Balbekin N.S., Kulia M.S., Petrov N.V. Method for increasing the view field of THz holograms // Информационные технологии и нанотехнологии: сборник трудов ИТНТ-2018 (Самара, 24-27апреля 2018г.) - 2018, pp. 366-369
  20. 15Gredyukhina I.V., Plotnikova L., Balbekin N.S., Kulya M.S., Petrov N.V., Nechiporenko A.P., Uspenskaya M.V. Influence of the degree of neutralization of acrylic acid and cross-linking agent on optical properties and swelling of sodium polyacrylate // Optics and spectroscopy - 2017, Vol. 122, No. 6, pp. 877–879 [IF: 0.716, SJR: 0.283]
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  21. 14Kulya M.S., Balbekin N.S., Gredyuhina I.V., Uspenskaya M.V., Nechiporenko A.P., Petrov N.V. Computational terahertz imaging with dispersive objects // Journal of Modern Optics - 2017, Vol. 64, No. 13, pp. 1283-1288 [IF: 1.328, SJR: 0.377]
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  22. 13Smirnov S.V., Kulya M.S., Tcypkin A.N., Putilin S.E., Bespalov V.G. Detection of the polarization spatial distribution of THz radiation generated by two-color laser filamentation // Наносистемы: Физика, химия, математика = Nanosystems: Physics, Chemistry, Mathematics - 2017, Vol. 8, No. 5, pp. 613-619
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  23. 12Tcypkin A.N., Putilin S.E., Kulya M.S., Drozdov A.A., Siddiqui M., Choudhary S., Zhao J., Bespalov V.G., Boyd R.W., Zhang X.C., Kozlov S.A. The nonlinearity of the refractive index of optical media in the terahertz spectral range // EPJ Web of Conferences - 2017, Vol. 149, pp. 05005 [SJR: 0.184]
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  24. 11Балбекин Н.С., Куля М.С., Петров Н.В. Импульсная терагерцовая голография с разрешением во времени в дисперсионных средах [Terahertz pulse time-domain holography in dispersive media] // Компьютерная оптика [Computer Optics] - 2017. - Т. 41. - № 3. - С. 348-355 [SJR: 0.491]
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  25. 10Гредюхина И.В., Плотникова Л.В., Балбекин Н.С., Куля М.С., Петров Н.В., Нечипоренко А.П., Успенская М.В. Влияние степени нейтрализации акриловой кислоты и сшивающего агента на оптические свойства и набухание полиакрилата натрия // Оптика и спектроскопия - 2017. - Т. 122. - № 6. - С. 912-914 [IF: 0.484]
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  26. 9Скобников В.А., Куля М.С. Изучение когерентных свойств источников излучения, используемых в цифровой голографии // Научные работы участников конкурса "Молодые ученые Университета ИТМО" 2016 года - 2017. - С. 439-443
  27. 8Petrov N.V., Kulya M.S., Tcypkin A.N., Bespalov V.G., Gorodetsky A.A. Application of Terahertz Pulse Time-Domain Holography for Phase Imaging // IEEE Transactions on Terahertz Science and Technology - 2016, Vol. 6, No. 3, pp. 464-472 [IF: 2.94, SJR: 1.087]
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  28. 7Semenova V.A., Kulya M.S., Bespalov V.G. Numerical simulation of broadband vortex terahertz beams propagation // Journal of Physics: Conference Series - 2016, Vol. 735, No. 1, pp. 012064 [SJR: 0.21]
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  29. 6Semenova V.A., Kulya M.S., Bespalov V.G. Spatial-temporal dynamics of broadband terahertz Bessel beam propagation // Journal of Physics: Conference Series - 2016, Vol. 735, No. 1, pp. 012063 [SJR: 0.21]
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  30. 5Semenova V.A., Kulya M.S., Petrov N.V., Grachev Y.V., Tsypkin A.N., Putilin S.E., Bespalov V.G. Amplitude-phase imaging of pulsed broadband terahertz vortex beams generated by spiral phase plate // International Conference on Infrared, Millimeter, and Terahertz Waves, IRMMW-THz - 2016, pp. 7758823 [SJR: 0.15]
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  31. 4Smirnov S.V., Grachev Y.V., Tsypkin A.N., Kulya M.S., Putilin S.E., Bespalov V.G. Spatial-temporal dynamics of the terahertz field generated by femtosecond filament // Journal of Physics: Conference Series - 2016, Vol. 735, No. 1, pp. 012065 [SJR: 0.21]
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  32. 3Balbekin N.S., Kulya M.S., Rogov P.I., Petrov N.V. The modeling peculiarities of diffractive propagation of the broadband terahertz two-dimensional field // Physics Procedia - 2015, Vol. 73, pp. 49-53 [SJR: 0.248]
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  33. 2Kulya M.S., Petrov N.V., Tsypkin A.N., Bespalov V.G. Influence of raster scan parameters on the image quality for the THz phase imaging in collimated beam with a wide aperture // Journal of Physics: Conference Series - 2014, Vol. 536, No. 1, pp. 012010 [SJR: 0.21]
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  34. 1Kulya M.S., Grachev Y.V., Bespalov V.G., Kujanpaa V.P. Spatial-time pattern of electrical field of terahertz pulse in the far field // Наносистемы: Физика, химия, математика = Nanosystems: Physics, Chemistry, Mathematics - 2013, Vol. 4, No. 2, pp. 206-213
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