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Development and study of a model of an autonomous energy information station of free space optical communication
Russian version
DOI: 10.21883/TPL.2023.01.55352.19306
Kalinovskii V.S.1, Terukov E.I.1, Ascheulov Y.V. 1, Kontrosh E.V.1, Yuferev V.S.1, Prudchenko K.K.1, Chekalin A.V.1, Terukova E.E.1, Tolkachev I.A.1, Goncharov S.E.1, Ustinov V.M.1
1Ioffe Institute, St. Petersburg, Russia
Email: vitak.sopt@mail.ioffe.ru, yuriascheulov@mail.ioffe.ru
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A model of an autonomous receiving station of free space optical communication system based on a multi-section energy heterostructure (HJT) Si photoconverter and an information photodetector based on AlGaAs/GaAs p-i-n photodiodes has been developed. The energy part, when excited by laser radiation with a power of ~ 264 W at a wavelength of 0.974 μm in the photovoltaic mode, provided ≥ 60 W of electric power. The photodetector of the information channel, when excited by pulsed radiation at a wavelength of 0.78 μm, provides response time in the photovoltaic mode in the sub-nanosecond range. Keywords: free space opical communication, receiving station, HJT Si photoconverter, AlGaAs/GaAs p-i-n photodetector, laser radiation, pulsed radiation
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