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Influence of the working surface roughness of the pulsed X-ray radiation galvanic sensor on its performance
Russian version
DOI: 10.21883/TPL.2023.05.56019.19461
Barykov I. A. 1,2, Butashin A. V.3, Zaitsev V. I.1, Muslimov A. E.3, Tarakanov I. A.4, Ismailov A. M.5, Fedorov V. A.3, Kanevsky V. M.3
1Troitsk Institute for Innovation and Fusion Research, Russian Academy of Sciences, Troitsk, Moscow, Russia
2Russian Peoples’ Friendship University, Moscow, Russia
3Shubnikov Institute of Crystallography “Crystallography and Photonics”, Russian Academy of Sciences, Moscow, Russia
4Keldysh Institute of Applied Mathematics, Russian Academy of Sciences, Moscow, Russia
5Dagestan State University, Makhachkala, Dagestan Republic, Russia
Email: boutic@crys.ras.ru, amuslimov@mail.ru
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A new design of a galvanic sensor of pulsed X-ray radiation is proposed, which is a flat electric capacitor with a window in one metal lining and a solid dielectric made of a single-crystal sapphire with a thickness of 200-300 μm inside. The influence of the surface roughness of the sapphire in the window area on the galvanic linear sensor of X-ray radiation has been established. Tests have shown that, with ultra-smooth polishing of the sapphire plate working surface in the window area to a roughness of Rq≤ 0.2 nm, it is possible to provide the galvanic linear detection of X-rays with an energy in the range of 0.1-1 keV and power density of 1-2 MW· cm-2 with a sensor response time of about 8 ns. Sensors of this type can be used in studies of inertial nuclear fusion processes. Keywords: X-ray radiation, galvanic sensor, sapphire, dielectric, flat capacitor.
  1. V.I. Kalashnikova, M.S. Kozodaev, Detektory elementarnykh chastits (Nauka, M., 1966). (in Russian)
  2. N.G. Basov, Yu.A. Zakharenkov, A.A. Rupasov, G.V. Sklizkov, A.S. Shikanov, Diagnostika plotnoy plazmy, pod red. N.G. Basova (Nauka, M., 1989). (in Russian)
  3. V.N. Amosov, A.I. Emel'yanov, N.I. Kris'ko, N.B. Rodionov, Almaznyy detektor, patent RF N 2522772. Ofitsial'nyy byulleten' N 20 (Rospatent, 2014). (in Russian)
  4. B.-H. Lin, X.-Y. Li, D.-J. Lin, B.-L. Jian, H.-Ch. Hsu, H.-Y. Chen, Sh.-Ch. Tseng, C.-Y. Lee, B.-Y. Chen, G.-C. Yin, M.-Y. Hsu, Sh.-H. Chang, M.-T. Tang, W.-F. Hsieh, Sci. Rep., 9 (1), 207 (2019). DOI: 10.1038/s41598-018-36764-8
  5. H.N. Kornblum, V.W. Slivinsky, Rev. Sci. Instrum., 49 (8), 1204 (1978). DOI: 10.1063/1.1135548
  6. V.I. Zaitsev, Sposob registratsii impul'snogo ioniziruyushchego izlucheniya, patent RF N 2640320. Ofitsial'nyy byulleten' FIPS N 36 (2017). (in Russian)
  7. A.E. Muslimov, V.E. Asadchikov, A.V. Butashin, V.P. Vlasov, A.N. Deryabin, B.S. Roshchin, S.N. Sulyanov, V.M. Kanevsky, Cryst. Rep., 61 (5), 730 (2016). DOI: 10.1134/S106377451605014X
  8. V.I. Zaitsev, I.A. Barykov, A.V. Kartashov, O.V. Terent'ev, N.B. Rodionov, Tech. Phys. Lett., 42, 1134 (2016). DOI: 10.1134/S1063785016110225
  9. I.A. Barykov, I.Yu. Vichev, Yu.A. Volkov, V.I. Zaitsev, N.V. Zalozhny, V.M. Kanevsky, I.A. Tarakanov, V.A. Fedorov, Matematicheskaya model' radiatsionno-indutsyrovannoy provodimosti v kvartse pri vozdeystvii moshchnogo rentgenovskogo izlucheniya, preprint IPM im. M.V. Keldysha N 18 (2021). DOI: 10.20948/prepr-2021-18 (in Russian)

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