Базакуца Алексей Павлович

 к.ф.-м.н., Старший научный сотрудник

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• В 2009 окончил Московский физико-технический институт (государственный Университет), в 2015 году успешно защитил диссертацию на соискание ученой степени кандидата физико-математических наук. Является экспертом в области волоконной оптики, физике конденсированного состояния, лазерной физике.
  Одним из основных направлений исследования является изучение взаимодействия водорода с легированными кварцевыми стеклами для волоконных лазеров.

Публикации

2025:

1.      Sudas D.P., Yapaskurt V.O., Luzanov V.A., Bazakutsa A.P., Kuznetsov P.I.
"Lossy mode resonance-based method for evaluating the vanadium oxide thin films for fiber optic devices" Optical Materials, Vol.167, pp.117278 (2025)
doi: 10.1016/j.optmat.2025.117278 (Q1)

2.      Popov S.M., Rybaltovsky A.A., Smirnov A.M., Bazakutsa A.P., Shikin A.S., Ryakhovskiy D.V., Voloshin V.V., Kolosovskii A.O., Vorob'ev I.L., Chamorovskii Yu.K., Lipatov D.S., Butov O.V.
"Tunable random laser with a cavity based on an erbium-doped germanophosphosilicate artificial Rayleigh fiber" Optical Fiber Technology, Vol.95, pp.104405 (2025)
doi: 10.1016/j.yofte.2025.104405 (Q2)

3.      Abin D.A., Starikovskii A.S., Malyavina A.Yu, Pokrovskii S.V., Batulin R.G., Kiiamov A.G., Fedin P.A., Pryanishnikov K.E., Kulevoy T.V., Bazakutsa A.P.
"Influence of ion irradiation on superconducting properties of HTSC tapes in a helical cable" FPS25 (2025)

2024:

4.      Lipatov D.S., Abramov A.N., Lobanov A.S., Burmistrov D., Popov S.M., Ryakhovskiy D.V., Chamorovskii Yu.K., Bazakutsa A.P., Iskhakova L., Egorova O., Rybaltovsky A.A.
"Erbium-Doped Fibers Designed for Random Single-Frequency Lasers Operating in the Extended L-Band" Photonics, Vol.11, pp.1175 (2024)
doi: 10.3390/photonics11121175 (Q3)

2023:

5.      Isaev V.A., Sudas D.P., Kashaykin P.F., Bazakutsa A.P., Yapaskurt V.O., Tomashuk A.L., Golant K.M., Chamorovsky Yu.K.
"Gd-doped silica fiber fabricated using surface plasmachemical deposition with view to radiation sensor applications" Optical Fiber Technology, Vol.77, pp.103291 (2023)
doi: 10.1016/j.yofte.2023.103291 (Q2)

6.      Bazakutsa A.P., Rybaltovsky A.A., Belkin M.E., Lipatov D.S., Lobanov A.S., Abramov A.N., Butov O.V.
"Highly-photosensitive Er/Yb-codoped fiber for single-frequency continuous-wave fiber lasers with a short cavity for telecom applications" Optical Materials, Vol.138, pp.113669 (2023)
doi: 10.1016/j.optmat.2023.113669 (Q2)

7.      Popov S., Rybaltovsky A., Bazakutsa A., Smirnov A., Ryakhovskiy D., Voloshin V., Kolosovskii A., Vorob'ev I., Isaev V., Chamorovskiy Yu., Lipatov D., Butov O.
"High Efficient Random Laser with Cavity Based on the Erbium-Doped Germanophosphosilicate Artificial Rayleigh Fiber" Photonics, Vol.10, pp.748 (2023)
doi: 10.3390/photonics10070748 (Q3)

8.      Vysokikh D.K., Bazakutsa A.P., Dorofeenko A.V., Butov O.V.
"Experiment-based model of an Er/Yb gain medium for fiber amplifiers and lasers" Journal of the Optical Society of America B, Vol.40, pp.2273-2279 (2023)
doi: 10.1364/JOSAB.497167 (Q3)

9.      Dorofeenko A.V., Nechepurenko I.A., Bazakutsa A.P., Butov O.V.
"Model of a fiber erbium amplifier for analysis of signal and noise propagation" Современная электродинамика, №2(4), pp.17-25 (2023)

2022:

10.      Rybaltovsky A.A., Sverchkov S.E., Vel'miskin V.V., Przhiialkovskii D.V., Bazakutsa A.P., Galagan B.I., Denker B.I., Butov O.V.
"Single-frequency continuous-wave laser based on the novel Er/Yb-doped composite phosphosilicate fiber" Optics & Laser Technology, Vol.151, pp.108049 (2022)
doi: 10.1016/j.optlastec.2022.108049 (Q1)

2020:

11.      Popov S.M., Butov O.V., Bazakutsa A.P., Vyatkin M.Yu., Chamorovskii Yu.K., Fotiadi A.A.
"Random lasing in a short Er-doped artificial Rayleigh fiber" Results in Physics, Vol.16, pp.102868 (2020)
doi: 10.1016/j.rinp.2019.102868 (Q1)

12.      Bazakutsa A.P., Rybaltovsky A.A., Umnikov A.A., Butov O.V.
"Photobleaching of UV-induced defects in Er/Al-doped glasses for fiber lasers" Optical Materials Express, Vol.10, №10, pp.2669-2678 (2020)
doi: 10.1364/OME.403352 (Q1)

13.      Rybaltovsky A.A., Lipatov D.S., Lobanov A.S., Abramov A.N., Umnikov A.A., Bazakutsa A.P., Bobkov K.K., Butov O.V., Gur'yanov A.N.
"Photosensitive highly Er/Yb co-doped phosphosilicate optical fibers for continuous-wave single-frequency fiber laser applications" Journal of the Optical Society of America B, Vol.37, №10, pp.3077-3083 (2020)
doi: 10.1364/JOSAB.403244 (Q2)

2019:

14.      Butov O.V., Bazakutsa A.P., Chamorovskiy Yu.K., Fedorov A.N., Shevtsov I.A.
"All-Fiber Highly Sensitive Bragg Grating Bend Sensor" Sensors, Vol.19, pp.4228 (2019)
doi: 10.3390/s19194228 (Q1)

15.      Bazakutsa A.P., Rybaltovsky A.A., Butov O.V.
"Effect of hydrogen loading and UV irradiation on the gain of Er3+-doped fibers" Journal of the Optical Society of America B, Vol.36, №9, pp.2579-2586 (2019)
doi: 10.1364/JOSAB.36.002579 (Q2)

2018:

16.      Smirnov A.M., Bazakutsa A.P., Chamorovskiy Yu.K., Nechepurenko I.A., Dorofeenko A.V., Butov O.V.
"Thermal Switching of Lasing Regimes in Heavily Doped Er3+ Fiber Lasers" ACS Photonics, Vol.5, №12, pp.5038-5046 (2018)
doi: 10.1021/acsphotonics.8b01298 (Q1)

2017:

17.      Butov O.V., Rybaltovsky A.A., Bazakutsa A.P., Golant K.M., Vyatkin M.Yu., Popov S.M., Chamorovskiy Yu.K.
"1030 nm Yb3+ distributed feedback short cavity silica-based fiber laser" Journal of the Optical Society of America B, Vol.34, №3, pp.A43-A48 (2017)
doi: 10.1364/JOSAB.34.000A43

2012:

18.      Bazakutsa A.P., Butov O.V., Savel'ev E.A., Golant K.M.
"Specific Features of IR Photoluminescence of Bismuth-Doped Silicon Dioxide Synthesized by Plasmachemical Method" Journal of Communications Technology and Electronics, Vol.57, №7, pp.743-750 (2012)