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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
  • 7 Downloads

Keywords

Physical Chemistry Analytical Chemistry Damage Site Fiber Lightguides 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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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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