Официальные
оппоненты:
Антипов
Олег Леонидович,
доктор
физико-математических наук, ведущий
научный сотрудник ФГБНУ «Федеральный
исследовательский центр Институт
прикладной физики Российской академии
наук» (ИПФ РАН). (спец.
01.04.21 «Лазерная физика»).
Публикации:
Dmitriy
Alekseev, Valentin Tyrtyshnyy, Maxim Kuznetsov, and Oleg Antipov,
“Transverse- Mode Instability in High-Gain Few-Mode Yb3+-Doped
Fiber Amplifiers With a 10-μm
Core Diameter With or Without Backward Reflection”, IEEE
Journal of Selected Topics in Quantum Electronics, Vol. 24, No.
3, 5100608 (8 pages) (May/June 2018). DOI:
10.1109/JSTQE.2017.2787608
Oleg
Antipov, Dmitry Kolker, Dmitry Kal’yanov, Sergey Larin,
Vladimir Shur, and Andrei Akhmathanov, “Near-infrared
second-harmonic generation versus mid-infrared optical parametric
oscillation in multigrating and fan-out PPMgO:LN structures
pumped by a repetitively pulsed 2-μm
Tm3+:Lu2O3-ceramics laser”, Journal of the Optical Society of
America B, Vol. 35, No. 7, pp. 1674-1679 (July 2018). DOI:
10.1364/JOSAB.35.001674
R.S.
Nagymihaly, H. Cao, P. Jojart, OL Antipov, V. Zuba, R. Flender,
I. Seres, A. Borzsonyi, V. Chykov, K. Osvay, M. Kalashnikov,
Broadband spectral characterization of the phase shift induced by
population inversion in Ti:Sapphire, Optics Express
27(2):1226-1235, 2019, DOI:10.1364/OE.27.001226
Oleg
L. Antipov, Ilya D. Eranov, Mikhail P. Frolov, Yuri V.
Korostelin, Vladimir I. Kozlovsky, and Yan K. Skasyrsky,
"High-efficiency high-repetition-rate gain-switched
operation around 3 μm
in Cr2+:CdSe single-crystal laser pumped by fiber-laser-pumped
Ho3+:YAG laser," Opt. Lett.
44, 1285-1288 (2019)
Haitao
Huang, Shiqiang Wang, Haiwei Chen, Oleg L. Antipov, Stanislav S.
Balabanov, and Deyuan Shen, "High power simultaneous
dual-wavelength CW and passively-Q-switched laser operation of LD
pumped Tm:YLF at 1.9 and 2.3 µm," Opt. Express
27, 38593-38601 (2019)
Nadezhda
Yu. Kostyukova, Andrey A. Boyko, Ilya D. Eranov, Oleg L. Antipov,
Dmitry B. Kolker, Anton I. Kostyukov, Evgenii Yu. Erushin,
Ilya B. Miroshnichenko, Dmitrii V. Badikov, and Valeriy V.
Badikov, "Laser-induced damage threshold of the nonlinear
crystals BaGa4Se7 and BaGa2GeSe6 at 2091 nm in the nanosecond
regime," J. Opt. Soc. Am. B
37, 2655-2659 (2020), DOI: 10.1364/JOSAB.396746
Олег
Антипов, Н.Н. Юдин, А.И. Грибенюков,
И.Д. Еранов, С.Н. Подзывалов, М.М.
Зиновьев, Л.А. Воронин, Е.В. Журавлева,
М.П. Зыкова, "Влияние технологии
постростовой обработки и параметров
лазерного излучения на длинах волн
2091 нм и 1064 нм на порог оптического
пробоя монокристалла ZnGeP2". Квантовая
электроника, 2021, № 51:4, с.306-316. Impact
factor:1.119, DOI: 10.1070/QEL17389
Zhu,
Chongqiang, Victor Dyomin, Nikolay Yudin, Oleg Antipov, Galina
Verozubova, Ilya Eranov, Mikhail Zinoviev, Sergey Podzyvalov,
Yelena Zhuravlyova, Yelena Slyunko, and Chunhui Yang. 2021.
"Laser-Induced
Damage Threshold of Nonlinear GaSe and GaSe:In Crystals upon
Exposure to Pulsed Radiation at a Wavelength of 2.1 μm"
Applied Sciences 11, no. 3: 1208.
https://doi.org/10.3390/app11031208
Семёнов
Сергей Львович,
доктор
физико-математических наук, руководитель,
Научный центр волоконной оптики им.
Е.М. Дианова РАН – обособленное
подразделение Федерального
исследовательского центра "Институт
общей физики им. А.М.Прохорова Российской
академии наук". (спец.
01.04.07 «Физика конденсированного
состояния»).
Публикации:
Sapozhnikov
D.A./, Chuchalov A.V., Bayminov B.A., Shibaeva P.A., Chaika E.M.,
Buzin M.I., Kosolapov A.F., Semjonov S.L., Vygodskii Y.S.
Silicon-containing polyimides: synthesis, properties, and
application as optical fiber light guide coatings // Russian
Chemical Bulletin. – 2020. – Vol. 69, No. 8. – P.
1486-1491. DOI: 10.1007/s11172-020-2927-z.
Sapozhnikov
D.A., Bayminov B.A., Chuchalov A.V., Semjonov S.L., Kosolapov
A.F., Zabegaeva O.N., Vygodskii Y.S. Synthesis of organosoluble
polyimides and optical fiber protective coatings on their basis
// Polymer Science - Series B. – 2020. – Vol. 62, No. 1. –
P. 39-46. DOI: 10.1134/S1560090420010078.
Skvortsov
M.I., Wolf A.A., Vlasov A.A., Proskurina K.V., Dostovalov A.V.,
Egorova O.N., Galagan B.I., Sverchkov S.E., Denker B.I., Semjonov
S.L., Babin S.A. Advanced distributed feedback lasers based on
composite fiber heavily doped with erbium ions // Scientific
Reports. – 2020. – Vol. 10. – 14487. DOI:
10.1038/s41598-020-71432-w.
Skvortsov
M.I., Wolf A.A., Vlasov A.A., Proskurina K.V., Dostovalov A.V.,
Egorova O.N., Galagan B.I., Sverchkov S.E., Denker B.I., Semjonov
S.L., Babin S.A. Ultrashort-cavity DFB laser based on
Er3+-heavily-doped phosphosilicate fiber // (2020) OSA Advanced
Photonics Congress (AP), OSA Technical Digest (Optical Society of
America, 2020), paper SoTu3H.4. DOI: 10.1364/SOF.2020.SoTu3H.4.
Tomashuk
A.L., Kashaykin P.F., Semjonov S.L., Filippov A.V., Bychkova
E.A., Galanova S.V., Azanova I.S., Vokhmyanin O.L., Pospelova
E.A., Sharonova Yu.O., Dimakova T.V., Voloshin V.V., Vorob’ev
I.L., Kolosovskii A.O., Chamorovskiy Yu.K.
Pulsed-X-ray-irradiation of radiation-resistant panda fibers:
dependence on dose, probe light power, and temperature // Optical
Materials. – 2020. – Vol. 109. – 110384. DOI:
10.1016/j.optmat.2020.110384.
Tomashuk
A.L., Kashaykin P.F., Semjonov S.L., Filippov A.V., Bychkova
E.A., Galanova S.V., Zavyalov N.V., Azanova I.S., Vokhmyanina
O.L., Pospelova E.A., Sharonova Y.O., Dimakova T.V., Voloshin
V.V., Vorob'ev I.L., Kolosovskii A.O., Chamorovskiy Y.K.
Comparison study of radiation-resistant polarization-maintaining
PANDA fibers with undoped- and N-doped-silica core // Journal of
Lightwave Technology. – 2020. – Vol. 38, No. 20. P.
5817-5824. DOI: 10.1109/JLT.2020.3002651.
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Отзыв Антипова О.Л.
Отзыв Семёнова С.Л.
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Ведущая
организация:
Федеральное
государственное бюджетное образовательное
учреждение высшего образования "МИРЭА
- Российский технологический университет"
Адрес:119454
г. Москва, проспект Вернадского, дом
78
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сайта:
https://www.mirea.ru/
Телефон:
+7 499 215-65-65
доб. 1140
E-mail:
mirea@mirea.ru
Публикации:
Mitetelo,
Nikolai & Svyakhovskiy, Sergey & Gartman, A. &
Kudrinskii, A. & Murzina, Tatiana & Maydykovskiy, Anton.
(2018).Enhancement of Nonlinear Optical Effects in Porous
Composite Plasmonic Structures. JETP Letters. 107.
10.1134/S0021364018050107.
Mitetelo,
Nikolai & Mamonov, Evgeniy & Venkatakrishnarao, Dasari &
Ravi, Jada & Popov, M. & Maydykovskiy, Anton &
Chandrasekar, Rajadurai & Murzina, Tatiana. (2019). Nonlinear
optical studies of chiral organic waveguides and resonators.
10.1364/FIO.2019.JTu3A.84.
Lavrov,
S. & Buryakov, A. & Mishina, Elena & Brekhov, Kirill
& Ilyin, Nikita & Shestakova, A. & Avdizhiyan, Artur.
(2019). Nonlinear Optical Spectroscopy of Two-Dimensional WSe2
Nanoflakes. MRS Advances. 4. 1-7. 10.1557/adv.2019.118.
Mikhail
Popov, Evgeniy Mamonov, Nikolai Mitetelo, Karina Zhdanova, Jada
Ravi, Rajadurai Chandrasekar, and Tatiana Murizina, "Laser
intensity-dependent nonlinear-optical effects in organic
whispering gallery mode cavity microstructures," Opt. Lett.
45, 4622-4625 (2020)
Bilyk,
V & Grishunin, Kirill & Sherstyuk, Natalia & Mishina,
Elena & Ovchinnikov, Andrey & Chefonov, Oleg. (2020). The
propagation effects in ultrafast nonlinear electro-optical
modulation in thin film on a substrate. Journal of Physics:
Conference Series. 1556. 012009. 10.1088/1742-6596/1556/1/012009.
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