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γ-irradiation damage of quartz fiber and its effects on near-infrared transmission characteristics

Mamoru Iso Jiang Hui Chen Bao-Xue Sui Guo-Rong Fu Chang-Song

γ-irradiation damage of quartz fiber and its effects on near-infrared transmission characteristics

Mamoru Iso, Jiang Hui, Chen Bao-Xue, Sui Guo-Rong, Fu Chang-Song
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  • Around the near-infrared wavelength at which optical fiber gyroscope works, the effects of 120 krad γ-irradiation on single-mode quartz fiber are studied experimentally from the following several aspects: return loss, polarization dependent loss, scattering loss, absorption loss, mode field distribution and guided-mode propagation constants. The gap defect energy level and its increment are estimated from near-infrared spectroscopy and stimulated raman scattering experiment. The medium density change is studied by x-ray diffraction. The photothermal effect of irradiated fiber with γ-ray is observed by a high sensitivity interference circuit. The test data show that the UV anneal has some repairing effect, revealing the possibility that UV annealing method can serve as a mannes of active reinforcement.
    • Funds:
    [1]

    Friebele E J, Gingerich M E, Griscom D L 1993 Proceeding of SPIE, vol. 1791 , Optical Materials Reliability and Testing: Benign and Adverse Environments, Boston, MA, USA, September 8—9, 1992 p177

    [2]

    Williams G M, Putnam M A, Friebele E J 1996 Proceeding of SPIE, vol. 2811 , Photonics for Space Environments IV, Denver, CO, USA, August 6—7, 1996 p32

    [3]

    Boucher R H, Woodward W F, Lomheim T S, Shima R M, Asman D J, Killian K M, LeGrand J, Goellner G J 1996 Opt. Eng. 35 955

    [4]

    Toh K, Shikama T, Nagata S, Tsuchiya B, Yamauchi M, Nishitani T 2006 Meas. Sci. Technol. 17 955

    [5]

    Brichard B, Borgermans P, Fernandez A, Lammens K, Decréton M 2001 IEEE Trans. NucI. Sci. 48 2069

    [6]

    llenschel H, Khn O, Schmid H U 1992 IEEE RADECS 91:First European Conference on Radiation and its Effects on Devices and Systems, La Grande-Motte, France, September 9—12, 1991 p380

    [7]

    Szafraniec B, Sanders G A 1999 J.Lig. Tech. 17 579

    [8]

    Lu Y H, Zhong S X 2004 Optoelectronic Technology 24 68 (in Chinese)[陆永红、钟生新 2004 光电子技术 24 68]

    [9]

    llenschel H, Khn O, Schmidt H U 1996 IEEE Trans. NucI. Sci. 43 1050

    [10]

    Gao S J, Ouyang S X 2003 Acta Phys. Sin. 52 1292 (in Chinese)[高祀建、欧阳世翕 2003 物理学报 52 1292]

    [11]

    Jiang X W,Qiu J R,Zhu C S,Ouyang S X,Hirao K,Gan F X 2001 Acta Phys. Sin. 50 871 (in Chinese) [姜雄伟、邱建荣、朱从善、欧阳世翕、Hirao K、干福熹 2001 物理学报 50 871]

    [12]

    Xiao Z Y, Luo W Y 2007 Acta Phys. Sin. 56 2731 (in Chinese)[肖中银、罗文芸、王廷云 2007 物理学报 56 2731]

    [13]

    Weeks R A 1956 J. Appl. Phys. 27 1376

    [14]

    Nagasawa H, Hoshi Y, Ohki Y 1987 Jpn. J. Appl. Phys. 26 554

    [15]

    Imai H, Arai K 1988 Phys. Rev. B 38 12772

    [16]

    Nishikawa H, Nakamura R, Tohmon R 1990 Phys. Rev. B 41 7828

    [17]

    Rich T C, Pinnow D A 1972 Appl.Phys.Lett. 20 264

    [18]

    Han Y L, Xiao W, Yi X S, Zhang Y C 2008 Infrared and Laser Engineering 37 128 (in Chinese)[韩艳玲、肖 文、伊小素、张运春 2008 红外与激光工程 37 128]

    [19]

    Gan F X 2002 Infrared and Laser Engineering 21 64 (in Chinese)[干福熹 2002 红外与激光工程 21 64]

    [20]

    He W, Li J Z, Mei J C 2005 Journal of Inorganic Materials 20 210 (in Chinese) [何 伟、李剑芝、梅家纯 2005 无机材料学报 20 210]

  • [1]

    Friebele E J, Gingerich M E, Griscom D L 1993 Proceeding of SPIE, vol. 1791 , Optical Materials Reliability and Testing: Benign and Adverse Environments, Boston, MA, USA, September 8—9, 1992 p177

    [2]

    Williams G M, Putnam M A, Friebele E J 1996 Proceeding of SPIE, vol. 2811 , Photonics for Space Environments IV, Denver, CO, USA, August 6—7, 1996 p32

    [3]

    Boucher R H, Woodward W F, Lomheim T S, Shima R M, Asman D J, Killian K M, LeGrand J, Goellner G J 1996 Opt. Eng. 35 955

    [4]

    Toh K, Shikama T, Nagata S, Tsuchiya B, Yamauchi M, Nishitani T 2006 Meas. Sci. Technol. 17 955

    [5]

    Brichard B, Borgermans P, Fernandez A, Lammens K, Decréton M 2001 IEEE Trans. NucI. Sci. 48 2069

    [6]

    llenschel H, Khn O, Schmid H U 1992 IEEE RADECS 91:First European Conference on Radiation and its Effects on Devices and Systems, La Grande-Motte, France, September 9—12, 1991 p380

    [7]

    Szafraniec B, Sanders G A 1999 J.Lig. Tech. 17 579

    [8]

    Lu Y H, Zhong S X 2004 Optoelectronic Technology 24 68 (in Chinese)[陆永红、钟生新 2004 光电子技术 24 68]

    [9]

    llenschel H, Khn O, Schmidt H U 1996 IEEE Trans. NucI. Sci. 43 1050

    [10]

    Gao S J, Ouyang S X 2003 Acta Phys. Sin. 52 1292 (in Chinese)[高祀建、欧阳世翕 2003 物理学报 52 1292]

    [11]

    Jiang X W,Qiu J R,Zhu C S,Ouyang S X,Hirao K,Gan F X 2001 Acta Phys. Sin. 50 871 (in Chinese) [姜雄伟、邱建荣、朱从善、欧阳世翕、Hirao K、干福熹 2001 物理学报 50 871]

    [12]

    Xiao Z Y, Luo W Y 2007 Acta Phys. Sin. 56 2731 (in Chinese)[肖中银、罗文芸、王廷云 2007 物理学报 56 2731]

    [13]

    Weeks R A 1956 J. Appl. Phys. 27 1376

    [14]

    Nagasawa H, Hoshi Y, Ohki Y 1987 Jpn. J. Appl. Phys. 26 554

    [15]

    Imai H, Arai K 1988 Phys. Rev. B 38 12772

    [16]

    Nishikawa H, Nakamura R, Tohmon R 1990 Phys. Rev. B 41 7828

    [17]

    Rich T C, Pinnow D A 1972 Appl.Phys.Lett. 20 264

    [18]

    Han Y L, Xiao W, Yi X S, Zhang Y C 2008 Infrared and Laser Engineering 37 128 (in Chinese)[韩艳玲、肖 文、伊小素、张运春 2008 红外与激光工程 37 128]

    [19]

    Gan F X 2002 Infrared and Laser Engineering 21 64 (in Chinese)[干福熹 2002 红外与激光工程 21 64]

    [20]

    He W, Li J Z, Mei J C 2005 Journal of Inorganic Materials 20 210 (in Chinese) [何 伟、李剑芝、梅家纯 2005 无机材料学报 20 210]

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  • Received Date:  04 October 2009
  • Accepted Date:  20 January 2010
  • Published Online:  15 November 2010

γ-irradiation damage of quartz fiber and its effects on near-infrared transmission characteristics

  • 1. (1)Department of Chemical Engineering, Tokyo University of Agriculture and Technology, Tokyo 184-8588, Japan; (2)Department of Optical-Electrical and Computer Engineering, University Of Shanghai for Science and Technology Shanghai 200093, China; (3)Department of Optical-Electrical and Computer Engineering, University Of Shanghai for Science and Technology Shanghai 200093, China;Shanghai Aerospace Control Technology Institute, Shanghai 200233, China

Abstract: Around the near-infrared wavelength at which optical fiber gyroscope works, the effects of 120 krad γ-irradiation on single-mode quartz fiber are studied experimentally from the following several aspects: return loss, polarization dependent loss, scattering loss, absorption loss, mode field distribution and guided-mode propagation constants. The gap defect energy level and its increment are estimated from near-infrared spectroscopy and stimulated raman scattering experiment. The medium density change is studied by x-ray diffraction. The photothermal effect of irradiated fiber with γ-ray is observed by a high sensitivity interference circuit. The test data show that the UV anneal has some repairing effect, revealing the possibility that UV annealing method can serve as a mannes of active reinforcement.

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