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INTERLABORATORY
COMPARISONS RELATED |
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Robin for Optical Fiber Bragg Grating Metrology Rose, A.H.; Wang, C.-M.; Dyer, S.D. NIST JRES 105(6): 839-866; Nov-Dec, 00 Effective Area and Nonlinear Coefficient Measurements of Single-Mode Fibers: Recent Interlaboratory Comparisons Drapela, T.J. Proc., Intl. Conf. on Applications of Photonics Tech. (ICAPT 2000), Quebec, Canada, June 12-16, 2000, 293-297, 00 Fiber Bragg Grating Metrology Round Robin: Telecom Group Rose, A.H.; Wang, C.-M.; Dyer, S.D. Tech. Dig., Symp. on Optical Fiber Meas., in NIST SP 953, 161-164; Sep 00 Multimode Fiber Transceiver Launch Distribution: Results of an Industry Round Robin Schlager, J.B.; Hackert, M.; Pepeljugoski, M.; Murphy, M.; Neumann, R.; Rice, J.; Gwinn, J. Tech. Dig., OFMC'99, Optical Fibre Measurement Conf., Sep 22-24, 1999, Nantes, France, 141-146; Sep 99 Optical Fiber Connectors: An Interlaboratory Comparison of Measurements of Endface Geometry Drapela, T.J. NIST TN 1503, 32 pp; Apr 98 Interlaboratory Comparison of Polarization Crosstalk Measurement Methods in Terminated High-Birefringence Optical Fiber Craig, R.M. Tech. Dig., Optical Fiber Communication Conf. (OFC'98), Feb 22-27, 1998, San Jose, CA, Vol 2: 180-181; Feb 98 International Comparison: Zero-Dispersion Wavelength in Single-Mode Optical Fibres (Wavelength): Final Report Mechels, S.E. Metrologia 34: 449; 97 TIA Round Robin for the Measurement of PMD Williams, P.A. Tech. Dig., Symp. on Optical Fiber Meas., in NIST SP 905, 155-158; Oct 96 Optical Fiber, Fiber Coating, and Connector Ferrule Geometry: Results of Interlaboratory Measurement Comparisons Drapela, T.J.; Franzen, D.L.; Young, M. NIST TN 1378, 61 pp; Nov 95 Fiber Geometry: Results of an International Interlaboratory Measurement Comparison Drapela, T.J.; Franzen, D.L.; Young, M. Tech. Dig., Optical Fiber Meas. Symp., in NIST SP 864, 129-132; Sep 94 Interlaboratory Comparison of Polarization-Holding Parameter Measurements on High Birefringence Optical Fiber Craig, R.M.; Tang, D.; Day, G.W. Tech. Dig., 2nd Optical Fibre Meas. Conf., Sep 21-22, 1993, Torino, Italy, 177-180; 93 Single-Mode Fiber Geometry and Chromatic Dispersion: Results of Interlaboratory Comparisons Drapela, T.J.; Franzen, D.L.; Young, M. Tech. Dig., Optical Fiber Meas. Symp., in NIST SP 839, 187-190; Sep 92 A Comparison of Far-Field Methods for Determining Mode Field Diameter of Single-Mode Fibers Using Both Gaussian and Petermann Definitions Drapela, T.J.; Franzen, D.L.; Cherin, A.H.; Smith, R.J. J. Lightwave Tech. 7(8): 1153-1157; Aug 89 Numerical Aperture of Multimode Fibers by Several Methods: Resolving Differences Franzen, D.L.; Young, M.; Cherin, A.H.; Head, E.D.; Hackert, M.; Raine, K.; Baines, J. J. Lightwave Tech. LT- 7(6): 896-910; Jun 89 Optical Fiber Measurements: Results of Interlaboratory Evaluations Franzen, D.L. Proc., SPIE, Vol 992: 242-244; 88 An Electronic Industries Association Interlaboratory Comparison to Resolve Differences in Multimode Fiber Numerical Aperture Measurements Cherin, A.H.; Head, E.; Franzen, D.L.; Young, M.; Hackert, M. Tech. Dig., Optical Fiber Meas. Symp., in NIST SP 748, 157-160; Sep 88 Interlaboratory Comparison of Far-Field Methods for Determining Mode Field Diameter Using Both Gaussian and Petermann Definitions Drapela, T.J. Tech. Dig., Optical Fiber Meas. Symp., in NIST SP 748, 179-182; Sep 88 Interlaboratory Measurement Comparison among Fiber Manufacturers to Determine the Effective Cutoff Wavelength and Mode-Field Diameter of Single-Mode Fiber Franzen, D.L. Tech. Dig., Optical Fiber Communication Conf., Feb 11-13, 1985, San Diego, CA, 36; 85 Determining the Mode-Field Diameter of Single-Mode Optical Fiber: An Interlaboratory Comparison Franzen, D.L.; Srivastava, R. J. Lightwave Tech. LT-3(5): 1073-1077; Oct 85 Determining the Effective Cutoff Wavelength of Single-Mode Fibers: An Interlaboratory Comparison Franzen, D.L. J. Lightwave Tech. LT-3(l): l28-133; Feb 85 An Inter-Laboratory Measurement Comparison of Core Diameter on Graded-Index Optical Fibers Kim, E.M.; Franzen, D.L. NBS SP 641; Oct 82 Measurement of the Core Diameter of Graded-Index Optical Fibers: An Interlaboratory Comparison Kim, E.M.; Franzen, D.L. Appl. Opt. 21(19): 3443-3450; Oct 82 Interlaboratory Measurement Comparison to Determine the Attenuation and Bandwidth of Graded-Index Fibers Franzen, D.L.; Day, G.W.; Danielson, B.L.; Chamberlain, G.E.; Kim, E.M. Appl. Opt. 20(14): 2412-2419; Jul 15, 81 Results of an Inter-Laboratory Measurement Comparison to Determine the Radiation Angle (NA) of Graded Index Optical Fibers Franzen, D.L.; Kim, E.M. Appl. Opt. 20(7): 1218-1220; Apr 81 Results of an Interlaboratory Measurement Comparison Among Fiber Manufacturers to Determine Attenuation Bandwidth and Numerical Aperture of Graded Index Optical Fibers Franzen, D.L.; Day, G.W.; Danielson, B.L.; Kim, E.M. Dig., 3rd Intl. Conf. Integrated Optics and Optical Fiber Comm., San Francisco, CA; Apr 81 Attenuation Measurements on Optical Fiber Waveguides: An Interlaboratory Comparison Among Manufacturers Day, G.W.; Chamberlain, G.E. NBSIR 79-1608; May 79 |