Matches in SemOpenAlex for { <https://semopenalex.org/work/W2284223602> ?p ?o ?g. }
- W2284223602 endingPage "20150044" @default.
- W2284223602 startingPage "20150044" @default.
- W2284223602 abstract "The thermodynamic temperature of the point of inflection of the melting transition of Re-C, Pt-C and Co-C eutectics has been determined to be 2747.84 ± 0.35 K, 2011.43 ± 0.18 K and 1597.39 ± 0.13 K, respectively, and the thermodynamic temperature of the freezing transition of Cu has been determined to be 1357.80 ± 0.08 K, where the ± symbol represents 95% coverage. These results are the best consensus estimates obtained from measurements made using various spectroradiometric primary thermometry techniques by nine different national metrology institutes. The good agreement between the institutes suggests that spectroradiometric thermometry techniques are sufficiently mature (at least in those institutes) to allow the direct realization of thermodynamic temperature above 1234 K (rather than the use of a temperature scale) and that metal-carbon eutectics can be used as high-temperature fixed points for thermodynamic temperature dissemination. The results directly support the developing mise en pratique for the definition of the kelvin to include direct measurement of thermodynamic temperature." @default.
- W2284223602 created "2016-06-24" @default.
- W2284223602 creator A5002930134 @default.
- W2284223602 creator A5005584328 @default.
- W2284223602 creator A5009432644 @default.
- W2284223602 creator A5015045788 @default.
- W2284223602 creator A5018466471 @default.
- W2284223602 creator A5019530092 @default.
- W2284223602 creator A5020471481 @default.
- W2284223602 creator A5021421243 @default.
- W2284223602 creator A5021442172 @default.
- W2284223602 creator A5022258210 @default.
- W2284223602 creator A5023600037 @default.
- W2284223602 creator A5025251403 @default.
- W2284223602 creator A5026251099 @default.
- W2284223602 creator A5027879484 @default.
- W2284223602 creator A5027957156 @default.
- W2284223602 creator A5029865010 @default.
- W2284223602 creator A5031605958 @default.
- W2284223602 creator A5031670093 @default.
- W2284223602 creator A5032634688 @default.
- W2284223602 creator A5040050988 @default.
- W2284223602 creator A5040837407 @default.
- W2284223602 creator A5043051102 @default.
- W2284223602 creator A5043229084 @default.
- W2284223602 creator A5044115306 @default.
- W2284223602 creator A5047196868 @default.
- W2284223602 creator A5048316928 @default.
- W2284223602 creator A5056553594 @default.
- W2284223602 creator A5057420184 @default.
- W2284223602 creator A5058296892 @default.
- W2284223602 creator A5063623003 @default.
- W2284223602 creator A5065087222 @default.
- W2284223602 creator A5073904978 @default.
- W2284223602 creator A5074113190 @default.
- W2284223602 creator A5076361511 @default.
- W2284223602 creator A5077676427 @default.
- W2284223602 creator A5079301379 @default.
- W2284223602 creator A5080828851 @default.
- W2284223602 creator A5081851019 @default.
- W2284223602 creator A5082878623 @default.
- W2284223602 creator A5084639418 @default.
- W2284223602 date "2016-03-28" @default.
- W2284223602 modified "2023-10-08" @default.
- W2284223602 title "Thermodynamic temperature assignment to the point of inflection of the melting curve of high-temperature fixed points" @default.
- W2284223602 cites W1647230759 @default.
- W2284223602 cites W1965787224 @default.
- W2284223602 cites W1968486743 @default.
- W2284223602 cites W1972860674 @default.
- W2284223602 cites W1973339752 @default.
- W2284223602 cites W1973387718 @default.
- W2284223602 cites W1978659045 @default.
- W2284223602 cites W1979495088 @default.
- W2284223602 cites W1979951305 @default.
- W2284223602 cites W1985069639 @default.
- W2284223602 cites W1991397115 @default.
- W2284223602 cites W1996505826 @default.
- W2284223602 cites W1998542738 @default.
- W2284223602 cites W2002119104 @default.
- W2284223602 cites W2014606372 @default.
- W2284223602 cites W2014956753 @default.
- W2284223602 cites W2018299007 @default.
- W2284223602 cites W2018993688 @default.
- W2284223602 cites W2020668770 @default.
- W2284223602 cites W2023422187 @default.
- W2284223602 cites W2029489871 @default.
- W2284223602 cites W2041008127 @default.
- W2284223602 cites W2044500365 @default.
- W2284223602 cites W2044709704 @default.
- W2284223602 cites W2045501485 @default.
- W2284223602 cites W2048068134 @default.
- W2284223602 cites W2048367838 @default.
- W2284223602 cites W2049516374 @default.
- W2284223602 cites W2058202794 @default.
- W2284223602 cites W2062105402 @default.
- W2284223602 cites W2072293310 @default.
- W2284223602 cites W2075689800 @default.
- W2284223602 cites W2080473396 @default.
- W2284223602 cites W2082645534 @default.
- W2284223602 cites W2083236761 @default.
- W2284223602 cites W2084679286 @default.
- W2284223602 cites W2087913713 @default.
- W2284223602 cites W2158721567 @default.
- W2284223602 cites W2225922499 @default.
- W2284223602 cites W2337215216 @default.
- W2284223602 cites W2340112247 @default.
- W2284223602 cites W73003358 @default.
- W2284223602 cites W2912128069 @default.
- W2284223602 doi "https://doi.org/10.1098/rsta.2015.0044" @default.
- W2284223602 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/26903099" @default.
- W2284223602 hasPublicationYear "2016" @default.
- W2284223602 type Work @default.
- W2284223602 sameAs 2284223602 @default.
- W2284223602 citedByCount "60" @default.
- W2284223602 countsByYear W22842236022016 @default.
- W2284223602 countsByYear W22842236022017 @default.
- W2284223602 countsByYear W22842236022018 @default.
- W2284223602 countsByYear W22842236022019 @default.