2015
DOI: 10.1088/0026-1394/52/5/s353
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Correction of NPL-2013 estimate of the Boltzmann constant for argon isotopic composition and thermal conductivity

Abstract: In 2013, a team from NPL, Cranfield University and SUERC published an estimate of the Boltzmann constant based on precision measurements of the speed of sound in argon. A key component of our results was an estimate of the molar mass of the argon gas used in our measurements. To achieve this we made precision comparison measurements of the isotope ratios found in our experimental argon against the ratios of argon isotopes found in atmospheric air. We then used a previous measurement of the atmospheric argon is… Show more

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Cited by 24 publications
(49 citation statements)
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“…To calculate the perturbation due to the finite conductivity of the surface at 273.16 K, we correct this result by first subtracting the increase in surface resistivity due to the insertion of the microphones (previously measured at 296 K) with the intermediate result ×10 -8 m, in good agreement with other determinations for the same type of copper [3,4]. Finally, we correct our estimate of the expected resistivity at 273.…”
Section: Skin Effect and Thermal Expansionmentioning
confidence: 61%
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“…To calculate the perturbation due to the finite conductivity of the surface at 273.16 K, we correct this result by first subtracting the increase in surface resistivity due to the insertion of the microphones (previously measured at 296 K) with the intermediate result ×10 -8 m, in good agreement with other determinations for the same type of copper [3,4]. Finally, we correct our estimate of the expected resistivity at 273.…”
Section: Skin Effect and Thermal Expansionmentioning
confidence: 61%
“…The influence of outgassing might be minimised by continuously flushing the internal measuring volume at a high flow rate. However, a systematic dependence of speed of sound on the flow-rate was previously reported for argon [3,4], possibly due to thermal gradients induced by the expansion of the gas jet as it enters the cavity [15]. To assess such possible influence of the flow rate on the measured speed of sound, in a preliminary test at 300 kPa, 273.16 K, we varied the flow rate in four steps between 10 sccm and 100 sccm while continuously recording the resonance frequencies of three radial modes, observing no significant variation of the measurand within the limited relative precision of 0.3 ppm.…”
Section: Estimate Of Outgassingmentioning
confidence: 84%
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