JIS C 6183-2:2018 光スペクトラムアナライザ―第２部：校正方法 | ページ 9

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                                                                C 6183-2 : 2018 (IEC 62129-1 : 2016)
                       図D.2−シアン化水素(H13C14N)によるLED光の吸収

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C 6183-2 : 2018 (IEC 62129-1 : 2016)
                                          参考文献
[1] IEC 60050-311,International Electrotechnical Vocabulary−Electrical and electronic measurements−General
    terms relating to measurements
[2] IEC 60050-312,International Electrotechnical Vocabulary−Electrical and electronic measurements−General
    terms relating to electrical measurements
[3] IEC 60050-313,International Electrotechnical Vocabulary−Electrical and electronic measurements−Types of
    electrical measuring instruments
[4] IEC 60050-314,International Electrotechnical Vocabulary−Electrical and electronic measurements−Specific
    terms according to the type of instrument
[5] IEC 60793-2-50,Optical fibres−Part 2-50: Product specifications−Sectional specification for class B
    single-mode fibres
  波長精度に影響を与える高所でのOSAの動作。これらの影響は幾つかのOSAでは無視できるものであ
るが,できないものもある。これは,空気の屈折率が気圧,湿度,温度に依存するためである。参考文献
は次に示す。
[6] EDLEN, B. The refractive index of air. Metrologia, 1966, Vol. 2, No. 2.
[7] PECK, ER. and REEDER, K. Dispersion of Air. JOSA, 1972, Vol. 62, No. 8.
  その他文献
[8] GILBERT, SL. and SWANN, WC. Standard Reference Materials: Acetylene 12C2H2 Absorption Reference for
    1510-1540 nm Wavelength Calibration. SRM 2517. NIST Spec. Publ. 260-133 (1998)
[9] GILBERT, SL., SWANN, WC and WANG, CM, Standard Reference Materials: Hydrogen Cyanide H13C14N
    Absorption Reference for 1530-1560 nm Wavelength Calibration. SRM 251. NIST Spec. Publ. 260-137, 1998
[10] HUMPHREYS, DA. Accurate wavelength calibration for optical spectrum analyzers. in Technical Digest.
    Symposium on Optical Fiber Measurements, NIST Spec. Publ. 905, 1996, pp. 97-100
[11] KAUFMAN, V. and EDLEN, B. Reference wavelengths from atomic spectra in the range 15 A to 25000 A. J.
    Phys. Chem. Ref. Data, 1974, vol. 3, No. 4, pp. 825-895
[12] LUCERO, AJ., Chung, YC. and TKACH, RW. Survey of optical transitions for absolute frequency locking for
    lightwave systems. IEEE Photon. Technol. Lett., 1991, vol. 3, No 5, pp. 484-486
[13] FISCHER, UP and VON HELMOLT, C. Absorption spectra of excited Kr 84 states between 1,5 and 1,58 μm
    and their use for absolute frequency locking. J. Lightwave Technol., 1996, vol. 14, No 2, pp. 139-142
[14] CHUNG, YC. Frequency-locked 1,3-and 1,5- μm semiconductor lasers for lightwave systems applications. J.
    Lightwave Technol., June, 1990, vol. 8, No. 6, pp. 869
[15] HUMPHREYS, DA. And CAMPBELL, C. Preliminary results of L-band exited-state optical frequency
    reference survey, in Conference Digest−6th Optical Fibre Measurement Conference. NPL, UK, 2001,
    pp.179-182
[16] HUMPHREYS, DA., CAMPBELL, C., BERNARD, F., and PATEL, P. Recent developments of excited-state
    optical frequency standards for telecommunications, in Technical Digest−Symposium on Optical Fiber

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                                                                C 6183-2 : 2018 (IEC 62129-1 : 2016)
    Measurements. NIST Spec. Publ. 988, 2002, pp. 79-82
[17] GILBERT, SL., DRAPELA, TJ. and FRANZEN, DL. Moderate-Accuracy Wavelength Standards for Optical
    Communications, in Technical Digest. Symposium on Optical Fiber Measurements, NIST Spec. Publ. 839, 1992,
    pp. 191-194
[18] NAKAGAWA, K, DE LABACHELERIE, M., AWAJI, Y and KOUROGI, M. Accurate optical frequency atlas
    of the 1,5 μm bands of acetylene. Journal of the Optical Society of America B (JOSA B), December 1996, vol.
    13, No. 12, pp. 2708-2714
[19] MADEJ, A. A., ALCOCK, A. J., CZAJKOWSKI, A., BERNARD, J. E. and CHEPUROV, S. Accurate absolute
    reference frequencies from 1511 to 1545 nm of the ν1 + ν3 band of 12C2H2 determined with laser frequency
    comb interval measurements. Journal of the Optical Society of America B (JOSA B), October 2006, vol. 23, no.
    10, p. 2200-2208.
[20] EDWARDS, C. S., MARGOLIS, H. S., BARWOOD, G. P., LEA, S. N., GILL, P. and ROWLEY, W.R. C.
    High-accuracy frequency atlas of 13C2H2 in the 1.5 μm region. Applied Physics B, June 2005, vol. 80, p.
    977-983.
[21] SASADA, H. and YAMADA, K. Calibration lines of HCN in the 1,5  μm region. Appl. Opt., 1990, vol. 29, p.
    3535-3547
番号なし参考
JIS C 1005:2006 電気・電子計測器の性能表示
    注記 対応国際規格 : IEC 60359,Electrical and electronic measurement equipment−Expression of
          performance
IEC 61290-3-1,Optical amplifiers−Test methods−Part 3-1: Noise figure parameters−Optical spectrum analyzer
    method
ISO/IEC Guide 99:2007,International vocabulary of metrology−Basic and general concepts and associated terms
    (VIM)