Comparison Study of Radiation-Resistant Polarization-Maintaining PANDA Fibers With Undoped- and N-Doped-Silica Core | PERPUSTAKAAN UNIVERSITAS KATOLIK PARAHYANGAN

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Comparison Study of Radiation-Resistant Polarization-Maintaining PANDA Fibers With Undoped- and N-Doped-Silica Core

Tomashuk, Alexander L. - Nama Orang; Kolosovskii, Alexander O. - Nama Orang; Vorob'ev, Igor L. - Nama Orang; Voloshin, Viktor V. - Nama Orang; Dimakova, Tatiana V. - Nama Orang; Sharonova, Yulia O. - Nama Orang; Pospelova, Elena A. - Nama Orang; Vokhmyanina, Olga L. - Nama Orang; Zavyalov, Nikolay V. - Nama Orang; Filippov, Aleksey V. - Nama Orang; Galanova, Sofiya V. - Nama Orang; Azanova, Irina S. - Nama Orang; Bychkova, Ekaterina A. - Nama Orang; Semjonov, Sergei L. - Nama Orang; Kashaykin, Pavel F. - Nama Orang; Chamorovskiy, Yuri K. - Nama Orang;

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 λ = 1.55 μm is compared under γ-irradiation and post-irradiation recovery at room temperature (RT) and -60 °C. The post-irradiation RIA decay at RT is used to extrapolate RIA to the postulated end of the PANDA space mission (15 years) with the help of the “n th -order kinetic” model. The RIA extrapolation values for both PANDA types are found to be comparable. RIA spectra are measured in the PANDAs in the spectral range ~0.5-4 eV in the process of both γ-irradiation and recovery; then the spectra are deconvolved into Gaussians components. The RIA spectra of both PANDA types are found to be composed of inherent and strain-assisted self-trapped holes (STHs), some undoped PANDAs demonstrating, in addition, a long-wavelength RIA tail affecting λ = 1.55 μm. No N-related color centers are revealed. Finally, RIA at λ = 1.55 μm is compared upon pulsed-X-ray irradiation. Undoped PANDAs are found to feature much smaller RIA at RT at post-pulse times larger than ~40-1000 μs, whereas at smaller times, an N-doped PANDA proved to be superior. At -60 °C and at t > 1 ms, both PANDA types demonstrate approximately equal RIAs. Thus, the experiments showed that the two PANDA types are quite comparable, each type having its own advantages and disadvantages.

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Informasi Detail

Judul Seri: JOURNAL OF LIGHTWAVE TECHNOLOGY; Vol.38 No.20 October 15 2020
No. Panggil: -
Penerbit: : .,
Deskripsi Fisik: p. 5817 - 5824
Bahasa: English
ISBN/ISSN: -
Klasifikasi: -
Tipe Isi: -
Tipe Media: -
Tipe Pembawa: -
Edisi: -
Subjek: RADIATION RESISTANCE
RIA
PANDA OPTICAL FIBER
RADIATION-INDUCED ABSORPTION
Info Detail Spesifik: -
Pernyataan Tanggungjawab: Alexander L. Tomashuk, Pavel F. Kashaykin, Sergei L. Semjonov, Aleksey V. Filippov, Ekaterina A. Bychkova, Sofiya V. Galanova, Nikolay V. Zavyalov, Irina S. Azanova, Olga L. Vokhmyanina, Elena A. Posp

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