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Publications in Math-Net.Ru |
Citations |
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2021 |
1. |
D. Yu. Proschenko, S. S. Golik, A. Yu. Maior, A. A. Il'in, A. V. Borovskiy, O. A. Bukin, “Development of a laser-induced breakdown spectroscopy method for the issues of geological exploration and ecological monitoring of aquatic environments in real time”, University proceedings. Volga region. Physical and mathematical sciences, 2021, no. 1, 112–119 |
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2020 |
2. |
A. Yu. Maior, D. Yu. Proschenko, A. G. Mirochnik, E. V. Fedorenko, “Optical properties of films based on polymethyl methacrylate doped with $\beta$-diketonates of boron difluoride”, Meždunar. nauč.-issled. žurn., 2020, no. 1(91), 12–17 |
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2019 |
3. |
S. S. Golik, V. V. Lisitsa, A. Yu. Maior, A. A. Il'in, Yu. S. Tolstonogova, A. V. Borovskii, N. N. Golik, D. Yu. Proschenko, M. Yu. Babii, “Spectral-time characteristics of sodium emission lines at filamentation of femtosecond duration laser pulses in atmospheric aerosol”, Meždunar. nauč.-issled. žurn., 2019, no. 11(89), 6–10 |
4. |
A. Yu. Mayor, D. Yu. Proschenko, A. G. Mirochnik, E. V. Fedorenko, “Optical properties of new photoactive polymers based on pmma doped with boron chylates”, Meždunar. nauč.-issled. žurn., 2019, no. 1(79), 12–15 |
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2018 |
5. |
D. Yu. Proschenko, A. Yu. Mayor, S. S. Golik, “Investigation of laser-induced fluorescence spectra of different grades of petroleum products dissolved in sea water with double-frequency excitation by pulses of femtosecond length”, Meždunar. nauč.-issled. žurn., 2018, no. 9(75), 42–46 |
6. |
A. A. Il'in, A. Yu. Maior, D. Yu. Proschenko, “Observation of the Rabi splitting of oxygen atomic levels in filament plasma formed by a femtosecond Ti:Sa laser pulse”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 44:21 (2018), 16–21 ; Tech. Phys. Lett., 44:11 (2018), 959–961 |
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7. |
A. A. Il'in, S. S. Golik, K. A. Shmirko, A. Yu. Mayor, D. Yu. Proschenko, Yu. N. Kulchin, “Broadening and shift of emission lines in a plasma of filaments generated by a tightly focused femtosecond laser pulse in air”, Kvantovaya Elektronika, 48:2 (2018), 149–156 [Quantum Electron., 48:2 (2018), 149–156 ] |
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2016 |
8. |
Yu. N. Kulchin, A. Yu. Maior, D. Yu. Proschenko, I. V. Postnova, Yu. A. Shchipunov, “Nonlinear optical properties and supercontinuum spectrum of titania-modified carbon quantum dots”, Kvantovaya Elektronika, 46:4 (2016), 335–337 [Quantum Electron., 46:4 (2016), 335–337 ] |
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2015 |
9. |
Yu. N. Kulchin, A. Yu. Mayor, D. Yu. Proschenko, A. Yu. Zhizhchenko, S. S. Golik, M. Yu. Babiy, A. G. Mirochnik, “Modification of a new polymer photorecording material based on PMMA doped with 2,2-difluoro-4-(9-antracyl)-6-methyl-1,3,2-dioxaborine by ultrashort pulses”, Kvantovaya Elektronika, 45:5 (2015), 477–481 [Quantum Electron., 45:5 (2015), 477–481 ] |
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2013 |
10. |
Yu. N. Kulchin, O. B. Vitrik, A. A. Chekhlenok, A. Yu. Zhizhchenko, D. Yu. Proschenko, A. G. Mirochnik, Lyu Guohui, “Photoimaging of the multiple filamentation of femtosecond laser pulses in poly(methyl methacrylate) doped with 2,2-difluoro-4-(9-anthracyl)-6-methyl-1,3,2-dioxaborine”, Kvantovaya Elektronika, 43:12 (2013), 1118–1121 [Quantum Electron., 43:12 (2013), 1118–1121 ] |
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11. |
Yu. N. Kulchin, S. S. Golik, D. Yu. Proschenko, A. A. Chekhlenok, I. V. Postnova, A. Yu. Maior, Yu. A. Shchipunov, “Supercontinuum generation and filamentation of ultrashort laser pulses in hybrid silicate nanocomposite materials on the basis of polysaccharides and hyperbranched polyglycidols”, Kvantovaya Elektronika, 43:4 (2013), 370–373 [Quantum Electron., 43:4 (2013), 370–373 ] |
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2014 |
12. |
Yu. N. Kulchin, A. Yu. Maior, D. Yu. Proschenko, A. A. Chekhlenok, I. V. Postnova, S. S. Golik, O. A. Bukin, Yu. A. Shchipunov, “Threshold energies for filamentation and spectral characteristics of supercontinuum generation in THEOS-based nanocomposite organosilicon media”, Kvantovaya Elektronika, 44:8 (2014), 793–797 [Quantum Electron., 44:8 (2014), 793–797 ] |
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