Measurement Techniques

, Volume 27, Issue 9, pp 794–797 | Cite as

Error of certification and measurement of instruments to detect damage sites of fiber lightguides

  • M. P. Surodin
  • S. V. Tikhomirov
Opticophysical Measurements


Physical Chemistry Analytical Chemistry Damage Site Fiber Lightguides 
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Literature cited

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    G. Elion and H. Elion, Fiber Optics in Communications Systems [Russian translation], Mir, Moscow (1981).Google Scholar
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    N. A. Semenov, Optical Communications Systems [in Russian], Radio Svyaz', Moscow (1981).Google Scholar
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    M. A. Ashmarin et al., Third All-Union Sci.-Tech. Conf. “Photometry and Its Metrological Support,” [in Russian], VNIIOFI, Moscow (1979).Google Scholar
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    A. D. Oleinikov et al. Radiotekhnika,37, No. 2, 87 (1982).Google Scholar
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    S. V. Tikhomirov and N. P. Khatyrev, Measuring Generators and Receivers in Calibration Instruments and Standard Measurement Facilities [in Russian], Vol 37, VNIIFTRI, Moscow (1978).Google Scholar
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    GOST 8.275-78. GSI. “Government primary standard and government inspection scheme for mean-power laser radiation measurement facilities in the 0.3–12.0-μm wavelength range” (1978).Google Scholar
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    GOST 8.198-76. GSI. “Government special standard and government inspection scheme for pulsed coherent radiation power measurements in the 0.4–10.6-μm wavelength range” (1976).Google Scholar
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    A. F. Kotyuk et al. Izmer. Tekh., No. 10, 22 (1982).Google Scholar

Copyright information

© Plenum Publishing Corporation 1985

Authors and Affiliations

  • M. P. Surodin
  • S. V. Tikhomirov

There are no affiliations available

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