Hydrogen Concentration Dependence of Bragg Wavelength of UV-Written Fiber Grating
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Abstract
Hydrogen loading provides highly enhanced photosensitivity in Ge-doped fiber. But the Bragg wavelength of UV-written fiber grating will shift from its initial value as the remaining hydrogen diffuses out of such fiber. A simple model to calculate the index change of hydrogenated fibers is presented. The theoretical model is in good agreement with experimental results and it can well predict the final wavelength position of UV-written weak fiber grating.
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FU Li-bin, TAN Gu, XU Wan-jin, LIN Xiang-zhi, LIU Hong-du. Hydrogen Concentration Dependence of Bragg Wavelength of UV-Written Fiber Grating[J]. Chin. Phys. Lett., 1998, 15(12): 886-888.
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FU Li-bin, TAN Gu, XU Wan-jin, LIN Xiang-zhi, LIU Hong-du. Hydrogen Concentration Dependence of Bragg Wavelength of UV-Written Fiber Grating[J]. Chin. Phys. Lett., 1998, 15(12): 886-888.
|
FU Li-bin, TAN Gu, XU Wan-jin, LIN Xiang-zhi, LIU Hong-du. Hydrogen Concentration Dependence of Bragg Wavelength of UV-Written Fiber Grating[J]. Chin. Phys. Lett., 1998, 15(12): 886-888.
|
FU Li-bin, TAN Gu, XU Wan-jin, LIN Xiang-zhi, LIU Hong-du. Hydrogen Concentration Dependence of Bragg Wavelength of UV-Written Fiber Grating[J]. Chin. Phys. Lett., 1998, 15(12): 886-888.
|
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