Zobrazeno 1 - 9
of 9
pro vyhledávání: '"Olga L. Vokhmyanina"'
Autor:
Irina S. Azanova, I. L. Vorob’ev, V. V. Voloshin, Olga L. Vokhmyanina, Yuri K. Chamorovskiy, Sergei L. Semjonov, Ekaterina A. Bychkova, A. O. Kolosovskii, Tatiana V. Dimakova, Elena A. Pospelova, Yulia O. Sharonova, Alexander L. Tomashuk, P. F. Kashaykin, Nikolay V. Zavyalov, Sofiya V. Galanova, Aleksey V. Filippov
Publikováno v:
Journal of Lightwave Technology. 38:5817-5824
For the first time, radiation-induced absorption (RIA) of light is compared in two types of polarization-maintaining PANDA fibers having 1) undoped-silica core and F-doped-silica cladding, or 2) N-doped-silica core and undoped-silica cladding. RIA at
Autor:
Irina S. Azanova, Igor A. Maltsev, Yulia O. Sharonova, Sergey L. Glushkov, Sofia V. Galanova, Tatiana V. Dimakova, Olga L. Vokhmyanina, P. F. Kashaykin, Elena A. Pospelova, Ekaterina A. Bychkova, Alexander L. Tomashuk
Publikováno v:
IEEE Photonics Technology Letters. 31:1413-1416
Radiation-induced absorption (RIA) is investigated at $ \lambda = {1.55}~ \mu \text{m}$ in technologically improved pure-silica-core (PSC) PANDAs, in which we minimized drawing-induced silica network strain. The results of the steady-state $\gamma $
Autor:
Elena A. Pospelova, P. F. Kashaykin, Igor A. Maltsev, Olga M. Tatsenko, A.L. Tomashuk, O.V. Zverev, E. M. Dianov, A.V. Filippov, Yu. O. Sharonova, Irina S. Azanova, N.S. Kuzyakina, Olga L. Vokhmyanina, Tatiana V. Dimakova
Publikováno v:
Journal of Non-Crystalline Solids. 508:26-32
Radiation-induced attenuation (RIA) at λ = 1.55 μm is studied in polarization-maintaining (PM) pure-silica-core optical fibers of the Panda-type under γ-irradiation and upon pulsed-X-ray-irradiation. For the first time, the RIA spectrum is compare
Autor:
Ekaterina A. Bychkova, Yu. O. Sharonova, Irina S. Azanova, Olga L. Vokhmyanina, Alexander L. Tomashuk, Sofiya V. Galanova, P. F. Kashaykin, A.V. Filippov
Publikováno v:
Bulletin of the Lebedev Physics Institute. 45:385-388
The evolution of radiation-induced absorption (RIA) of light at λ = 1.55 μmis compared after pulsed action of ionizing radiation at different probe light power in an undoped-silica-core Panda-type birefringent optical fiber and in an isotropic opti
Autor:
Evgueni M. Dianov, Pavel F. Kashaykin, Elena A. Pospelova, Olga L. Vokhmyanina, Tatiana V. Dimakova, Igor A. Maltsev, Yulia O. Sharonova, Irina S. Azanova, Alexander L. Tomashuk
Publikováno v:
Micro-structured and Specialty Optical Fibres VI.
Autor:
Olga L. Vokhmyanina, Evgueni M. Dianov, Igor A. Maltsev, Yulia O. Sharonova, Tatiana V. Dimakova, Pavel F. Kashaykin, Irina S. Azanova, Elena A. Pospelova, Alexander L. Tomashuk
Publikováno v:
Micro-structured and Specialty Optical Fibres VI.
Autor:
YuO. Sharonova, P. F. Kashaykin, A.V. Filippov, Elena A. Pospelova, A. O. Kolosovskii, Sergey L. Semjonov, Tatiana V. Dimakova, YuK. Chamorovskiy, Sofiya V. Galanova, Olga L. Vokhmyanina, A.L. Tomashuk, V. V. Voloshin, I. L. Vorob’ev, Irina S. Azanova, Ekaterina A. Bychkova
Publikováno v:
Optical Materials. 109:110384
Radiation induced attenuation (RIA) at wavelength λ = 1.55 μm was studied upon pulsed-X-ray irradiation in radiation-resistant fibers of the “PANDA” type of two chemical compositions having an undoped-silica core and an N-doped-silica core. The
Autor:
Tomashuk, Alexander L., Kashaykin, Pavel F., Semjonov, Sergei L., Filippov, Aleksey V., Bychkova, Ekaterina A., Galanova, Sofiya V., Zavyalov, Nikolay V., Azanova, Irina S., Vokhmyanina, Olga L., Pospelova, Elena A., Sharonova, Yulia O., Dimakova, Tatiana V., Voloshin, Viktor V., Vorobev, Igor L., Kolosovskii, Alexander O., Chamorovskiy, Yuri K.
Publikováno v:
Journal of Lightwave Technology; 10/15/2020, Vol. 38 Issue 20, p5817-5824, 8p
Autor:
Tomashuk, Alexander L., Kashaykin, Pavel F., Azanova, Irina S., Sharonova, Yulia O., Pospelova, Elena A., Vokhmyanina, Olga L., Dimakova, Tatiana V., Maltsev, Igor A., Bychkova, Ekaterina A., Galanova, Sofia V., Glushkov, Sergey L.
Publikováno v:
IEEE Photonics Technology Letters; 9/1/2019, Vol. 31 Issue 17, p1413-1416, 4p