A new 3He vapour-pressure based temperature scale from 0.65K to 3.2K consistent with the PLTS-2000
Identifieur interne : 004D22 ( Main/Exploration ); précédent : 004D21; suivant : 004D23A new 3He vapour-pressure based temperature scale from 0.65K to 3.2K consistent with the PLTS-2000
Auteurs : Jost Engert [Allemagne] ; Bernd Fellmuth [Allemagne] ; Karl Jousten [Allemagne]Source :
- Metrologia [ 0026-1394 ] ; 2007.
English descriptors
- Teeft :
- Absolute value, Additional enclosure, Aerostatic head, American institute, Ange level, Baratron, Baratron cdgs, Bipm, Calibration, Calibration data, Calibration measurements, Cdgs, Cold spots, Complete uncertainty budget, Copper block, Copper tubes, Correction function, Corresponding temperature ranges, Cryostat, Data points, Data sets, Different input data, Direct calibration, Direct realization, Drift correction repeatability, Engert, Expansion ratio, Expectation values, Experimental data, Fellmuth, Full scale, Gauge heads, Handling system, Heat capacity, Heat capacity data, Heat input, Hoffmann, Inconsistency, Input data, International temperature scale, Interpolation, Line pressure, Lower temperatures, Magnetic scale, Magnetic thermometry, Mathematical approximation, Mechanical properties, Metrologia, Molar volume, Natural features, Pind, Piston gauge, Pressure calibration, Pressure control, Pressure difference, Pressure gauge, Pressure measurement, Pressure range, Pressure values, Pst, Reference sides, Relative deviation, Relative uncertainty, Reliable approximation, Repeatability, Resistance bridge, Resistance measurement, Resistance value, Resistor correction, Rirt calibration, Rirts, Room temperature, Rusby, Same measurement conditions, Scale realization, Scale table, Schuster, Second step, Several times, Smooth transition, Standard deviation, Standard resistor, Standard uncertainty, Static expansion method, Subgroup data, Subgroup data sets, Supplementary information, Temperature dependence, Temperature difference, Temperature differences, Temperature distribution, Temperature range, Temperature scale, Temperature thermometry, Temperature values, Tenc, Thermal oscillations, Thermodynamic, Thermodynamic equation, Thermodynamic inconsistency, Thermodynamic interpolation, Thermodynamic properties, Thermodynamic scale, Thermodynamic temperature, Thermodynamic terms, Thermodynamic uncertainty, Thesis university, Torr, Torr baratron, Ttvpe, Tvpe, Tvpnew, Twire, Uncertainty, Uncertainty bounds, Uncertainty budget, Uncertainty component, Uncertainty components, Uncertainty type, Uncertainty values, Vapour, Vapour pressure, Vapour pressures, Vapourpressure, Vapourpressure scale, Vpcs, Wire scale.
Abstract
A new 3He vapour-pressure scale, called PTB-2006, has been established for the temperature range from 0.65K to 3.2K. The PTB-2006 removes the thermodynamic inconsistency of the International Temperature Scale (ITS-90) below 1K by relying on the PLTS-2000. Between 1K and 2K the new scale is derived from an interpolation based on the thermodynamic vapour-pressure equation for 3He. At temperatures above 2K it is nearly identical with the ITS-90. The derivation of the PTB-2006 is described in detail and an uncertainty budget is presented with respect to thermodynamic temperature.
Url:
DOI: 10.1088/0026-1394/44/1/006
Affiliations:
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temperatures</term><term>Magnetic scale</term><term>Magnetic thermometry</term><term>Mathematical approximation</term><term>Mechanical properties</term><term>Metrologia</term><term>Molar volume</term><term>Natural features</term><term>Pind</term><term>Piston gauge</term><term>Pressure calibration</term><term>Pressure control</term><term>Pressure difference</term><term>Pressure gauge</term><term>Pressure measurement</term><term>Pressure range</term><term>Pressure values</term><term>Pst</term><term>Reference sides</term><term>Relative deviation</term><term>Relative uncertainty</term><term>Reliable approximation</term><term>Repeatability</term><term>Resistance bridge</term><term>Resistance measurement</term><term>Resistance value</term><term>Resistor correction</term><term>Rirt calibration</term><term>Rirts</term><term>Room temperature</term><term>Rusby</term><term>Same measurement conditions</term><term>Scale realization</term><term>Scale table</term><term>Schuster</term><term>Second 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baratron</term><term>Ttvpe</term><term>Tvpe</term><term>Tvpnew</term><term>Twire</term><term>Uncertainty</term><term>Uncertainty bounds</term><term>Uncertainty budget</term><term>Uncertainty component</term><term>Uncertainty components</term><term>Uncertainty type</term><term>Uncertainty values</term><term>Vapour</term><term>Vapour pressure</term><term>Vapour pressures</term><term>Vapourpressure</term><term>Vapourpressure scale</term><term>Vpcs</term><term>Wire scale</term></keywords></textClass><langUsage><language ident="en">en</language></langUsage></profileDesc></teiHeader><front><div type="abstract">A new 3He vapour-pressure scale, called PTB-2006, has been established for the temperature range from 0.65K to 3.2K. The PTB-2006 removes the thermodynamic inconsistency of the International Temperature Scale (ITS-90) below 1K by relying on the PLTS-2000. Between 1K and 2K the new scale is derived from an interpolation based on the thermodynamic vapour-pressure equation for 3He. At temperatures above 2K it is nearly identical with the ITS-90. The derivation of the PTB-2006 is described in detail and an uncertainty budget is presented with respect to thermodynamic temperature.</div></front></TEI><affiliations><list><country><li>Allemagne</li></country><region><li>Berlin</li></region><settlement><li>Berlin</li></settlement></list><tree><country name="Allemagne"><region name="Berlin"><name sortKey="Engert, Jost" sort="Engert, Jost" uniqKey="Engert J" first="Jost" last="Engert">Jost Engert</name></region><name sortKey="Fellmuth, Bernd" sort="Fellmuth, Bernd" uniqKey="Fellmuth B" first="Bernd" last="Fellmuth">Bernd Fellmuth</name><name sortKey="Jousten, Karl" sort="Jousten, Karl" uniqKey="Jousten K" first="Karl" last="Jousten">Karl Jousten</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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