Your search keyword '"Gaiser, Christof"' showing total 43 results

1. Ab initio Calculation of Fluid Properties for Precision Metrology

Author

Garberoglio, Giovanni, Gaiser, Christof, Gavioso, Roberto M., Harvey, Allan H., Hellmann, Robert, Jeziorski, Bogumił, Meier, Karsten, Moldover, Michael R., Pitre, Laurent, Szalewicz, Krzysztof, and Underwood, Robin

Subjects

Condensed Matter - Statistical Mechanics, Physics - Atomic and Molecular Clusters, Physics - Chemical Physics

Abstract

Recent advances regarding the interplay between ab initio calculations and metrology are reviewed, with particular emphasis on gas-based techniques used for temperature and pressure measurements. Since roughly 2010, several thermophysical quantities - in particular, virial and transport coefficients - can be computed from first principles without uncontrolled approximations and with rigorously propagated uncertainties. In the case of helium, computational results have accuracies that exceed the best experimental data by at least one order of magnitude and are suitable to be used in primary metrology. The availability of ab initio virial and transport coefficients contributed to the recent SI definition of temperature by facilitating measurements of the Boltzmann constant with unprecedented accuracy. Presently, they enable the development of primary standards of temperature in the range 2.5-552 K and pressure up to 7 MPa using acoustic gas thermometry, dielectric constant gas thermometry, and refractive index gas thermometry. These approaches will be reviewed, highlighting the effect of first-principles data on their accuracy. The recent advances in electronic structure calculations that enabled highly accurate solutions for the many-body interaction potentials and polarizabilities of atoms - particularly helium - will be described, together with the subsequent computational methods, most often based on quantum statistical mechanics and its path-integral formulation, that provide thermophysical properties and their uncertainties. Similar approaches for molecular systems, and their applications, are briefly discussed. Current limitations and expected future lines of research are assessed., Comment: 59 pages, 9 figures

Published

2023

2. Primary gas-pressure standard from electrical measurements and thermophysical ab initio calculations

Author

Gaiser, Christof, Fellmuth, Bernd, and Sabuga, Wladimir

Published

2020

3. Ab Initio Calculation of Fluid Properties for Precision Metrology

Author

Garberoglio, Giovanni, primary, Gaiser, Christof, additional, Gavioso, Roberto M., additional, Harvey, Allan H., additional, Hellmann, Robert, additional, Jeziorski, Bogumił, additional, Meier, Karsten, additional, Moldover, Michael R., additional, Pitre, Laurent, additional, Szalewicz, Krzysztof, additional, and Underwood, Robin, additional

Published

2023

4. Progress towards the determination of thermodynamic temperature with ultra-low uncertainty

Author

Gavioso, Roberto M., Ripa, Daniele Madonna, Steur, Peter P. M., Gaiser, Christof, Zandt, Thorsten, Fellmuth, Bernd, de Podesta, Michael, Underwood, Robin, Sutton, Gavin, Pitre, Laurent, Sparasci, Fernando, Risegari, Lara, Gianfrani, Livio, Castrillo, Antonio, and Machin, Graham

Published

2016

5. High-accuracy realization of temperature fixed and reference points

Author

Fellmuth, Bernd, primary and Gaiser, Christof, additional

Published

2023

6. Thermophysical properties of low-density neon gas from highly accurate first-principles calculations and dielectric-constant gas thermometry measurements.

Author

Hellmann, Robert, Gaiser, Christof, Fellmuth, Bernd, Vasyltsova, Tatjana, and Bich, Eckard

Subjects

*THERMOPHYSICAL properties, *VIRIAL coefficients, *THERMOMETRY, *NEON, *SPIN-orbit interactions, *DIELECTRIC measurements, *POLARIZABILITY (Electricity)

Abstract

New interatomic potential energy and interaction-induced polarizability curves for two ground-state neon atoms were developed and used to predict the second density, acoustic, and dielectric virial coefficients and the dilute gas shear viscosity and thermal conductivity of neon at temperatures up to 5000 K. The potential energy curve is based on supermolecular coupled-cluster (CC) calculations at very high levels up to CC with single, double, triple, quadruple, and perturbative pentuple excitations [CCSDTQ(P)]. Scalar and spin–orbit relativistic effects, the diagonal Born–Oppenheimer correction, and retardation of the dispersion interactions were taken into account. The interaction-induced polarizability curve, which in this work is only needed for the calculation of the second dielectric virial coefficient, is based on supermolecular calculations at levels up to CCSDT and includes a correction for scalar relativistic effects. In addition to these first-principles calculations, highly accurate dielectric-constant gas thermometry (DCGT) datasets measured at temperatures from 24.5 to 200 K were analyzed to obtain the difference between the second density and dielectric virial coefficients with previously unattained accuracy. The agreement of the DCGT values with the ones resulting from the first-principles calculations is, despite some small systematic deviations, very satisfactory. Apart from this combination of two virial coefficients, the calculated thermophysical property values of this work are significantly more accurate than any available experimental data. [ABSTRACT FROM AUTHOR]

Published

2021

7. 2022 Update for the Differences Between Thermodynamic Temperature and ITS-90 Below 335 K

Author

Gaiser, Christof, primary, Fellmuth, Bernd, additional, Gavioso, Roberto M., additional, Kalemci, Murat, additional, Kytin, Vladimir, additional, Nakano, Tohru, additional, Pokhodun, Anatolii, additional, Rourke, Patrick M. C., additional, Rusby, Richard, additional, Sparasci, Fernando, additional, Steur, Peter P. M., additional, Tew, Weston L., additional, Underwood, Robin, additional, White, Rod, additional, Yang, Inseok, additional, and Zhang, Jintao, additional

Published

2022

8. Primary Gas Pressure Standard Passes Next Stress Test

Author

Gaiser, Christof, primary, Fellmuth, Bernd, additional, and Sabuga, Wladimir, additional

Published

2022

9. Computer-aided and experimental determination of thermophysical properties of gas mixtures containing hydrogen

Author

Meier, Karsten, Hellmann, Robert, Wang, Ru, Harten, Ruben Nils Luca, Günz, Christian, Manzel, Mathis, Gaiser, Christof, Schulz, Sebastian, Pietsch, Arne, Zipfel, Joachim, and Jaeger, Philip

Subjects

Viscosity, 620 Ingenieurwissenschaften, Mixture, Burnett method, 500 Naturwissenschaften, Computer simulation, dtec.bw, Virial coefficient, Hydrogen

Abstract

Der gesamte Band ist unter der DOI 10.24405/14522 abrufbar.

Published

2022

10. Highly-accurate density-virial-coefficient values for helium, neon, and argon at 0.01 ○C determined by dielectric-constant gas thermometry.

Author

Gaiser, Christof and Fellmuth, Bernd

Subjects

*NEON, *ARGON, *VIRIAL coefficients, *HELIUM, *NOBLE gases, *BOLTZMANN'S constant

Abstract

The dielectric-constant gas thermometer of Physikalisch-Technische Bundesanstalt (PTB) developed for measuring the Boltzmann constant with a relative uncertainty of 1.9 parts per million was used for determining the virial coefficients of the three noble gases, helium, neon, and argon, at the triple point of water (0.01 ○ C). For this purpose, isotherms were measured up to a maximum pressure of 7 MPa. The evaluation of the highly accurate data by fitting is required to derive an extended working equation for the dependence of the gas pressure on the dielectric constant. The following values have been obtained for the second B and third C virial coefficients, with the standard uncertainties given in parentheses as a multiple of the last digit, considering literature data for the dielectric virial coefficients: helium: B D C G T H e 0.01 ○ C = 11.9257 15 c m 3 / m o l , C D C G T H e 0.01 ○ C = 113.49 58 c m 6 / m o l 2 ; neon: B D C G T N e 0.01 ○ C = 10.9945 28 c m 3 / m o l , C D C G T N e 0.01 ○ C = 215.8 15 c m 6 / m o l 2 ; argon: B D C G T A r 0.01 ○ C = − 21.2331 44 c m 3 / m o l , C D C G T A r 0.01 ○ C = 1143.3 39 c m 6 / m o l 2 . These values are compared with the results of the latest ab initio calculations of the second and third virial coefficients. [ABSTRACT FROM AUTHOR]

Published

2019

11. The international Boltzmann project – the contribution of the PTB

Author

Fellmuth, Bernd, Fischer, Joachim, Gaiser, Christof, Priruenrom, Tasanee, Sabuga, Wladimir, and Ulbig, Peter

Published

2009

12. Primary thermometry at 4 K, 14 K, and 25 K applying dielectric-constant gas thermometry

Author

Gaiser, Christof, primary and Fellmuth, Bernd, additional

Published

2021

13. Residual resistance ratio as indicator for the influence of impurities on fixed-point temperatures

Author

Fellmuth, Bernd, primary and Gaiser, Christof, additional

Published

2021

14. Highly-accurate second-virial-coefficient values for helium from 3.7 K to 273 K determined by dielectric-constant gas thermometry

Author

Gaiser, Christof, primary and Fellmuth, Bernd, additional

Published

2021

15. Thermodynamic-temperature data from 30 K to 200 K

Author

Gaiser, Christof, primary, Fellmuth, Bernd, additional, and Haft, Norbert, additional

Published

2020

16. Die Messgröße Temperatur im verbesserten Internationalen Einheitensystem

Author

Fellmuth, Bernd, primary and Gaiser, Christof, additional

Published

2020

17. Experimentos para el nuevo SI, el Sistema Internacional de Unidades, Segunda edición 04 / 2019

Author

Scharf, Rainer, Middelmann, Thomas, Bauch, Andreas, Weyers, Stefan, Peik, Ekkehard, Schödel, René, Scherer, Hansjörg, Siegner, Uwe, Becker, Peter, Bettin, Horst, Gläser, Michael, Fischer, Joachim, Fellmuth, Bernd, Gaiser, Christof, Sperling, Armin, and Kück, Stefan

Subjects

Redefinición de las unidades de medida, Enfriamiento laser, Constante de Boltzmann, Interferometría, Unidad de medida básica segundo, Intensidad de corriente eléctrica, Termometría, Carga elemental, Unidad básica de medida mol, Constante de Avogadro, Patrón de frecuencia, Esfera de silicio, Patrones cuánticos, Balanza de Watt, Intensidad de luz, Transición del reloj, Sistema Internacional de Unidades (SI), Proyecto Avogadro, Constantes naturales, Velocidad de la luz, Unidades básicas de medida, Cantidad de sustancia, Tiempo, Unidad básica de medida candela, Efecto Josephson, Reloj atómico óptico, Reloj atómico de cesio, Constante de Planck, Temperatura, Unidad básica de medida metro, Reloj atómico, Bomba de electrones individuales, Efecto Hall cuántico, Longitud, Unidad básica de medida ampere, Termometría de gases usando las constantes dieléctricas, Unidad básica de medida Kelvin, Equivalente de radiación fotométrica, Convención del Metro, Masa, Unidad básica de medida kilogramo

Abstract

PTB-Mitteilungen. 126. año, número 2, Segunda edición, enero 2019

Published

2019

18. Experiments for the New SI, 2nd Edition 07 / 2018

Author

Scharf, Rainer, Middelmann, Thomas, Bauch, Andreas, Weyers, Stefan, Peik, Ekkehard, Schödel, René, Scherer, Hansjörg, Siegner, Uwe, Becker, Peter, Bettin, Horst, Gläser, Michael, Fischer, Joachim, Fellmuth, Bernd, Gaiser, Christof, Sperling, Armin, and Kück, Stefan

Abstract

PTB-Mitteilungen. Volume 126 (2016), No. 2. ISSN 0030-834X

Published

2018

19. Experimente für das neue Internationale Einheitensystem (SI), 2. Auflage 07 / 2018

Author

Scharf, Rainer, Middelmann, Thomas, Bauch, Andreas, Weyers, Stefan, Peik, Ekkehard, Schödel, René, Scherer, Hansjörg, Siegner, Uwe, Becker, Peter, Bettin, Horst, Gläser, Michael, Fischer, Joachim, Fellmuth, Bernd, Gaiser, Christof, Sperling, Armin, and Kück, Stefan

Subjects

Lichtgeschwindigkeit, Neudefinitionen der Einheiten, Zeit, Basiseinheit Candela, Stoffmenge, Temperatur, Quanten-Hall-Effekt, elektrische Stromstärke, Elementarladung, Atomuhr, Länge, Frequenznormal, Boltzmann-Konstante, Internationales Einheitensystem (SI), Dielektrizitätskonstanten-Gasthermometrie, Quantennormale, Basiseinheit Mol, Basiseinheit Kelvin, Siliziumkristallkugel, Avogadro-Konstante, Lichtstärke, Basiseinheit Meter, Basiseinheit Kilogramm, Optische Atomuhr, Wattwaage, Einzelelektronenpumpe (SET), Basiseinheit Ampere, Basiseinheit Sekunde, Thermometrie, Meterkonvention, Laserkühlung, Masse, Avogadro-Projekt, photometrisches Strahlungsäquivalent, Caesiumatomuhr, Basiseinheiten, Planck-Konstante, Josephson-Effekt, Uhrenübergang, Interferometrie, Naturkonstanten

Abstract

PTB-Mitteilungen. Band 126 (2016), Heft 2. ISSN 0030-834X

Published

2018

20. Primary gas-pressure standard from electrical measurements and thermophysical ab initio calculations

Author

Gaiser, Christof, primary, Fellmuth, Bernd, additional, and Sabuga, Wladimir, additional

Published

2019

21. Refractive-index gas thermometry

Author

Rourke, Patrick M C, primary, Gaiser, Christof, additional, Gao, Bo, additional, Ripa, Daniele Madonna, additional, Moldover, Michael R, additional, Pitre, Laurent, additional, and Underwood, Robin J, additional

Published

2019

22. Edición Especial Experimentos para el nuevo SI, el Sistema Internacional de Unidades

Author

Scharf, Rainer, Middelmann, Thomas, Bauch, Andreas, Weyers, Stefan, Peik, Ekkehard, Schödel, René, Scherer, Hansjörg, Siegner, Uwe, Becker, Peter, Bettin, Horst, Gläser, Michael, Fischer, Joachim, Fellmuth, Bernd, Gaiser, Christof, Sperling, Armin, and Kück, Stefan

Subjects

Redefinición de las unidades de medida, Enfriamiento laser, Constante de Boltzmann, Interferometría, Unidad de medida básica segundo, Intensidad de corriente eléctrica, Termometría, Carga elemental, Unidad básica de medida mol, Constante de Avogadro, Patrón de frecuencia, Esfera de silicio, Patrones cuánticos, Balanza de Watt, Intensidad de luz, Transición del reloj, Sistema Internacional de Unidades (SI), Proyecto Avogadro, Constantes naturales, Velocidad de la luz, Unidades básicas de medida, Cantidad de sustancia, Tiempo, Unidad básica de medida candela, Efecto Josephson, Reloj atómico óptico, Reloj atómico de cesio, Constante de Planck, Temperatura, Unidad básica de medida metro, Reloj atómico, Bomba de electrones individuales, Efecto Hall cuántico, Longitud, Unidad básica de medida ampere, Termometría de gases usando las constantes dieléctricas, Unidad básica de medida Kelvin, Equivalente de radiación fotométrica, Convención del Metro, Masa, Unidad básica de medida kilogramo

Abstract

PTB-Mitteilungen. 126. año, número 2, junio 2016

Published

2017

23. Polarizability of Helium, Neon, and Argon: New Perspectives for Gas Metrology

Author

Gaiser, Christof, primary and Fellmuth, Bernd, additional

Published

2018

24. Experimente für das neue Internationale Einheitensystem (SI)

Author

Scharf, Rainer, Middelmann, Thomas, Bauch, Andreas, Weyers, Stefan, Peik, Ekkehard, Schödel, René, Scherer, Hansjörg, Siegner, Uwe, Becker, Peter, Bettin, Horst, Gläser, Michael, Fischer, Joachim, Fellmuth, Bernd, Gaiser, Christof, Sperling, Armin, and Kück, Stefan

Subjects

Lichtgeschwindigkeit, Neudefinitionen der Einheiten, Zeit, Basiseinheit Candela, Stoffmenge, Temperatur, Quanten-Hall-Effekt, elektrische Stromstärke, Elementarladung, Atomuhr, Länge, Frequenznormal, Boltzmann-Konstante, Internationales Einheitensystem (SI), Dielektrizitätskonstanten-Gasthermometrie, Quantennormale, Basiseinheit Mol, Basiseinheit Kelvin, Siliziumkristallkugel, Avogadro-Konstante, Lichtstärke, Basiseinheit Meter, Basiseinheit Kilogramm, Optische Atomuhr, Wattwaage, Einzelelektronenpumpe (SET), Basiseinheit Ampere, Basiseinheit Sekunde, Thermometrie, Meterkonvention, Laserkühlung, Masse, Avogadro-Projekt, photometrisches Strahlungsäquivalent, Caesiumatomuhr, Basiseinheiten, Planck-Konstante, Josephson-Effekt, Uhrenübergang, Interferometrie, Naturkonstanten

Abstract

PTB-Mitteilungen. Band 126 (2016), Heft 2. ISSN 0030-834X

Published

2016

25. Wie viel Energie steckt in der Temperatur?

Author

Fischer, Joachim, Fellmuth, Bernd, and Gaiser, Christof

Subjects

Internationales Einheitensystem (SI), Dielektrizitätskonstanten-Gasthermometrie, Temperatur, Basiseinheit Kelvin, Thermometrie, Boltzmann-Konstante

Abstract

PTB-Mitteilungen. Band 126 (2016), Heft 2. ISSN 0030-834X

Published

2016

26. Perspectives for a new realization of the pascal by optical methods

Author

Jousten, Karl, primary, Hendricks, Jay, additional, Barker, Daniel, additional, Douglas, Kevin, additional, Eckel, Steve, additional, Egan, Patrick, additional, Fedchak, James, additional, Flügge, Jens, additional, Gaiser, Christof, additional, Olson, Douglas, additional, Ricker, Jacob, additional, Rubin, Tom, additional, Sabuga, Wladimir, additional, Scherschligt, Julia, additional, Schödel, Rene, additional, Sterr, Uwe, additional, Stone, Jack, additional, and Strouse, Gregory, additional

Published

2017

27. Final determination of the Boltzmann constant by dielectric-constant gas thermometry

Author

Gaiser, Christof, primary, Fellmuth, Bernd, additional, Haft, Norbert, additional, Kuhn, Axel, additional, Thiele-Krivoi, Bettina, additional, Zandt, Thorsten, additional, Fischer, Joachim, additional, Jusko, Otto, additional, and Sabuga, Wladimir, additional

Published

2017

28. Primary thermometry from 2.5 K to 140 K applying dielectric-constant gas thermometry

Author

Gaiser, Christof, primary, Fellmuth, Bernd, additional, and Haft, Norbert, additional

Published

2017

29. Concept of a new technique for the combined determination of dielectric and density virial coefficients

Author

Guenz, Christian, primary, Gaiser, Christof, additional, and Richter, Markus, additional

Published

2017

30. EURAMET key comparison no. EURAMET.T-K1: realisations of the ITS-90 from 2.6 K to 24.5561 K, using rhodium-iron resistance thermometers

Author

Gaiser, Christof, primary, Fellmuth, Bernd, additional, Steur, Peter, additional, Szmyrka-Grzebyk, Anna, additional, Manuszkiewicz, Henryk, additional, Lipinski, Leszek, additional, Peruzzi, Andrea, additional, Rusby, Richard, additional, and Head, David, additional

Published

2017

31. Method for extrapolating the compressibility data of solids from room to lower temperatures

Author

Gaiser, Christof, primary and Fellmuth, Bernd, additional

Published

2016

32. Measurement of pressures up to 7 MPa applying pressure balances for dielectric-constant gas thermometry

Author

Zandt, Thorsten, primary, Sabuga, Wladimir, additional, Gaiser, Christof, additional, and Fellmuth, Bernd, additional

Published

2015

33. Dielectric-constant gas thermometry

Author

Gaiser, Christof, primary, Zandt, Thorsten, additional, and Fellmuth, Bernd, additional

Published

2015

34. Temperatur

Author

Buck, Wolfgang, Strehlow, Peter, Seidel, Joachim, Engert, Jost, Fellmuth, Bernd, Fischer, Joachim, Hartmann, Jürgen, Hollandt, Jörg, Tegeler, Erich, Quinn, Terry, Rudtsch, Steffen, Wolber, Lutz, Edler, Frank, Anhalt, Klaus, Gutschwager, Berndt, Struß, Ortwin, Steiger, Andreas, Gaiser, Christof, and Physikalisch-Technische Bundesanstalt (PTB)

Abstract

PTB-Mitteilungen. Band 117 (2007), Heft 3, S. 221 - 293. ISSN 0030-834X

Published

2007

35. Improved determination of the Boltzmann constant by dielectric-constant gas thermometry

Author

Gaiser, Christof, primary, Zandt, Thorsten, additional, Fellmuth, Bernd, additional, Fischer, Joachim, additional, Jusko, Otto, additional, and Sabuga, Wladimir, additional

Published

2013

36. Low-temperature determination of the Boltzmann constant by dielectric-constant gas thermometry

Author

Gaiser, Christof, primary and Fellmuth, Bernd, additional

Published

2011

37. Determination of the Boltzmann constant by dielectric-constant gas thermometry

Author

Fellmuth, Bernd, primary, Fischer, Joachim, additional, Gaiser, Christof, additional, Jusko, Otto, additional, Priruenrom, Tasanee, additional, Sabuga, Wladimir, additional, and Zandt, Thorsten, additional

Published

2011

38. Naturkonstanten als solide Basis. Neudefinition der Einheit Kelvin

Author

Fischer, Joachim, primary, Fellmuth, Bernd, additional, Gaiser, Christof, additional, and Zandt, Thorsten, additional

Published

2011

39. Helium virial coefficients—a comparison between new highly accurate theoretical and experimental data

Author

Gaiser, Christof, primary and Fellmuth, Bernd, additional

Published

2009

40. Band-gap engineering withHfSxSe2−x

Author

Gaiser, Christof, primary, Zandt, Thorsten, additional, Krapf, Alica, additional, Serverin, Ralf, additional, Janowitz, Christoph, additional, and Manzke, Recardo, additional

Published

2004

41. Low-temperature determination of the Boltzmann constant by dielectric-constant gas thermometry.

Author

Gaiser, Christof and Fellmuth, Bernd

Published

2012

42. Progress towards the determination of thermodynamic temperature with ultra-low uncertainty

Author

Daniele Angelo Madonna Ripa, T. Zandt, Graham Machin, Laurent Pitre, Robin Underwood, Antonio Castrillo, Peter P. M. Steur, Bernd Fellmuth, Lara Risegari, Livio Gianfrani, Roberto Gavioso, Michael de Podesta, G. Sutton, F. Sparasci, Christof Gaiser, Gavioso, Roberto M., Ripa, Daniele Madonna, Steur, Peter P. M., Gaiser, Christof, Zandt, Thorsten, Fellmuth, Bernd, Podesta, Michael de, Underwood, Robin, Sutton, Gavin, Pitre, Laurent, Sparasci, Fernando, Risegari, Lara, Gianfrani, Livio, Castrillo, Antonio, and Machin, Graham

Subjects

Condensed Matter::Quantum Gases, Materials science, Triple point, General Mathematics, General Engineering, General Physics and Astronomy, Thermodynamics, Johnson–Nyquist noise, Thermodynamic temperature, 01 natural sciences, Freezing point, 010309 optics, symbols.namesake, International Temperature Scale of 1990, 0103 physical sciences, Boltzmann constant, Thermal, symbols, 010306 general physics, Doppler broadening

Abstract

Previous research effort towards the determination of the Boltzmann constant has significantly improved the supporting theory and the experimental practice of several primary thermometry methods based on the measurement of a thermodynamic property of a macroscopic system at the temperature of the triple point of water. Presently, experiments are under way to demonstrate their accuracy in the determination of the thermodynamic temperature T over an extended range spanning the interval between a few kelvin and the copper freezing point (1358 K). We discuss how these activities will improve the link between thermodynamic temperature and the temperature as measured using the International Temperature Scale of 1990 (ITS-90) and report some preliminary results obtained by dielectric constant gas thermometry and acoustic gas thermometry. We also provide information on the status of other primary methods, such as Doppler broadening thermometry, Johnson noise thermometry and refractive index gas thermometry. Finally, we briefly consider the implications of these advancements for the dissemination of calibrated temperature standards.

Published

2016

43. Progress towards the determination of thermodynamic temperature with ultra-low uncertainty.

Author

Gavioso RM, Ripa DM, Steur PP, Gaiser C, Zandt T, Fellmuth B, de Podesta M, Underwood R, Sutton G, Pitre L, Sparasci F, Risegari L, Gianfrani L, Castrillo A, and Machin G

Abstract

Previous research effort towards the determination of the Boltzmann constant has significantly improved the supporting theory and the experimental practice of several primary thermometry methods based on the measurement of a thermodynamic property of a macroscopic system at the temperature of the triple point of water. Presently, experiments are under way to demonstrate their accuracy in the determination of the thermodynamic temperature T over an extended range spanning the interval between a few kelvin and the copper freezing point (1358 K). We discuss how these activities will improve the link between thermodynamic temperature and the temperature as measured using the International Temperature Scale of 1990 (ITS-90) and report some preliminary results obtained by dielectric constant gas thermometry and acoustic gas thermometry. We also provide information on the status of other primary methods, such as Doppler broadening thermometry, Johnson noise thermometry and refractive index gas thermometry. Finally, we briefly consider the implications of these advancements for the dissemination of calibrated temperature standards., (© 2016 The Author(s).)

Published

2016