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Mikhail Parfenov
Mikhail Parfenov
Verified email at mail.ioffe.ru
Title
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Cited by
Year
Simulation of Ti-indiffused lithium niobate waveguides and analysis of their mode structure
M Parfenov, P Agruzov, I Il'ichev, A Shamray
Journal of Physics: Conference Series 741 (1), 012141, 2016
162016
Precise correction of integrated optical power splitters based on lithium niobate substrates by photorefractive effect local excitation
M Parfenov, A Tronev, I Ilichev, P Agruzov, A Shamrai
Applied Physics B 126, 1-8, 2020
142020
Optical study of composite material with nanosized fullerenol inclusions
AE Karpunin, IV Pleshakov, OV Proskurina, VI Gerasimov, AA Nechitailov, ...
Journal of Physics: Conference Series 1236 (1), 012012, 2019
112019
High extinction ratio integrated optical modulator for quantum telecommunication systems
A Tronev, M Parfenov, P Agruzov, I Ilichev, A Shamray
Journal of Physics: Conference Series 951 (1), 012002, 2018
112018
Broad-band fiber optic link with a stand-alone remote external modulator for antenna remoting and 5G wireless network applications
A Petrov, E Velichko, V Lebedev, I Ilichev, P Agruzov, M Parfenov, ...
Internet of Things, Smart Spaces, and Next Generation Networks and Systems …, 2019
82019
Photorefractive correction of the coupling ratio of an integrated optical directional X-coupler on a lithium niobate substrate
MV Parfenov, AV Tronev, IV Il’ichev, PM Agruzov, AV Shamrai
Technical Physics Letters 45, 187-189, 2019
62019
Fabrication of high extinction ratio lithium niobate integrated optical modulators using photorefractive trimming
A Tronev, M Parfenov, P Agruzov, I Ilichev, L Shamray, A Shamray
Integrated Optics: Devices, Materials, and Technologies XXII 10535, 316-320, 2018
52018
Redistribution of Optical Power in the Arms of a Waveguide Y-splitter under Local External Illumination of the Lithium Niobate Substrate
MV Parfenov, AV Tronev, IV Ilichev, PM Agruzov, AV Shamrai
Technical Physics Letters 46, 4-7, 2020
42020
Power-over-Fiber with Simultaneous Transmission of Optical Carrier for a High Frequency Analog Signal over Standard Single-Mode Fiber
A Varlamov, P Agruzov, M Parfenov, A Tronev, I Ilichev, A Usikova, ...
Photonics 10 (1), 17, 2022
32022
Design of Hybrid Waveguide Structures for High-Efficiency Integrated Optical Superconducting Single Photon Detectors On Ti:LiNbO3 Waveguides
M Parfenov, P Agruzov, I Ilichev, S Bozhko, A Shamrai
IEEE Photonics Journal 13 (6), 1-7, 2021
32021
Improving the efficiency of the integrated optical superconducting single photon detector on a lithium niobate substrate by means of an additional cover layer with a high …
MV Parfenov, AV Shamrai
Technical Physics Letters 46 (8), 819-822, 2020
32020
Wideband tunable delay line for microwave signals based on RF photonic components
AS Podstrigaev, AS Lukiyanov, AA Galichina, AP Lavrov, MV Parfenov
Internet of Things, Smart Spaces, and Next Generation Networks and Systems …, 2020
32020
Extinction Ratio Improvement of Lithium Niobate Modulators for Quantum Communication Systems
AV Tronev, IV Ilichev, PM Agruzov, MV Parfenov, LV Shamray, ...
2018 International Conference Laser Optics (ICLO), 438-438, 2018
32018
Photorefractive trimming of Ti in-diffused waveguides for high performance lithium niobate photonic integrated circuits
A Tronev, M Parfenov, D Dolbik, P Agruzov, I Ilichev, A Shamray
Journal of Physics: Conference Series 867 (1), 012015, 2017
32017
Metal Electrodes for Filtering the Localized Fundamental Mode of a Ridge Optical Waveguide on a Thin Lithium Niobate Nanofilm
M Parfenov, P Agruzov, A Tronev, I Ilichev, A Usikova, Y Zadiranov, ...
Nanomaterials 13 (20), 2755, 2023
22023
Electronic System of Remote Optical Control of LiNbO3 Mach-Zehnder Modulator Operating Point
P Agruzov, M Parfenov, A Tronev, A Varlamov, I Ilichev, A Usikova, ...
Electronics 12 (1), 206, 2022
22022
Local laser oxidation of titanium film for the post-fabrication trimming of photonic integrated circuits
AV Tronev, MV Parfenov, SI Bozhko, AM Ionov, RN Mozhchil, ...
Optical Materials Express 12 (10), 4072-4087, 2022
22022
Dynamic Range Improvement of Broad-band Analog Fiber Optic Links with Special Lithium Niobate Integrated Optical Modulators
A Petrov, M Parfenov, V Lebedev, I Ilichev, P Agruzov, A Tronev, ...
Internet of Things, Smart Spaces, and Next Generation Networks and Systems …, 2020
22020
Superconducting single-photon detector for lithium niobate integrated quantum photonic at telecom wavelengths
P Agruzov, A Ionov, S Chekmazov, S Bozhko, I Ilichev, A Tronev, ...
2019 Conference on Lasers and Electro-Optics Europe & European Quantum …, 2019
22019
Fabrication of high-performance lithium niobate photonic integrated circuits using laser microtrimming
A Tronev, M Parfenov, P Agruzov, I Ilichev, A Shamrai
3D Printed Optics and Additive Photonic Manufacturing 10675, 105-110, 2018
22018
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