A direct phase coherent determination of the absolute frequency of the a15 component in the R(12) 26-0 and b10 component in the R(106) 28-0 transitions in 127I2 at 543 nm has been made at the International Bureau of Weights and Measures. Lasers from the Czech Metrology Institute (Czech Republic), the National Institute of Metrology (China), the Centro Nacional de Metrologia (Mexico), the Standards, Productivity and Innovation Board (Singapore), the Centre for Metrology and Accreditation (Finland), the Danish Institute of Fundamental Metrology (Denmark), the National Physical Laboratory (U.K.), and the International Bureau of Weights and Measures took part. The mean frequency values found are f(a15) = 551 579 856 480.4 kHz, uc = 4.8 kHz and f(b10) = 551 580 162 397.1 kHz, uc = 4.6 kHz for the current group of lasers, where uc is the combined standard uncertainty. This constitutes a 30-fold improvement in accuracy for this radiation, which is recommended for the realization of the definition of the meter. If only lasers equipped with an iodine cell temperature control are considered, the group of lasers shows a dispersion of 7 kHz. This value is indicative of the level of reproducibility that can be expected at present for this type of standard.

Absolute frequency measurement of the R(12) 26-0 and R(106) 28-0 transitions in I-127(2) at lambda=543 nm RID A-8681-2011 / Ma, Ls; Picard, S; Zucco, Massimo; Chartier, Jm; Robertsson, L; Balling, P; Krin, P; Qian, J; Liu, Z; Shi, C; Alonso, Mv; Xu, G; Tan, Sl; Nyholm, K; Henningsen, J; Hald, J; Rowley, Wrc; Barwood, Gp; Windeler, R.. - In: IEEE TRANSACTIONS ON INSTRUMENTATION AND MEASUREMENT. - ISSN 0018-9456. - 55:3(2006), pp. 876-880. [10.1109/TIM.2005.858122]

Absolute frequency measurement of the R(12) 26-0 and R(106) 28-0 transitions in I-127(2) at lambda=543 nm RID A-8681-2011

ZUCCO, MASSIMO;
2006

Abstract

A direct phase coherent determination of the absolute frequency of the a15 component in the R(12) 26-0 and b10 component in the R(106) 28-0 transitions in 127I2 at 543 nm has been made at the International Bureau of Weights and Measures. Lasers from the Czech Metrology Institute (Czech Republic), the National Institute of Metrology (China), the Centro Nacional de Metrologia (Mexico), the Standards, Productivity and Innovation Board (Singapore), the Centre for Metrology and Accreditation (Finland), the Danish Institute of Fundamental Metrology (Denmark), the National Physical Laboratory (U.K.), and the International Bureau of Weights and Measures took part. The mean frequency values found are f(a15) = 551 579 856 480.4 kHz, uc = 4.8 kHz and f(b10) = 551 580 162 397.1 kHz, uc = 4.6 kHz for the current group of lasers, where uc is the combined standard uncertainty. This constitutes a 30-fold improvement in accuracy for this radiation, which is recommended for the realization of the definition of the meter. If only lasers equipped with an iodine cell temperature control are considered, the group of lasers shows a dispersion of 7 kHz. This value is indicative of the level of reproducibility that can be expected at present for this type of standard.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11696/34936
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