May, E.
, Pitre, L.
, Mehl, J.
, Moldover, M.
and Schmidt, J.
(2004),
Quasi-Spherical Cavity Resonators for Metrology Based on the Relative Dielectric Permittivity of Gases, Review of Scientific Instruments
(Accessed April 19, 2024)
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Quasi-Spherical Cavity Resonators for Metrology Based on the Relative Dielectric Permittivity of Gases
Published
Author(s)
E May, Laurent Pitre, , ,
Abstract
We evaluate a quasi-spherical, copper, microwave cavity resonator for accurately measuring the relative dielectric permittivity epsilonr(p,T)} of helium and argon. In a simple, crude approximation the cavity s shape is a triaxial ellipsoid with axes of length a}, 1.001a} and 1.005a}, with a} = 5 cm. The unequal axes of the quasi-sphere separated the triply-degenerate microwave resonance frequencies of a sphere fTM11, fTM12,... fTM11, fTM12,...}into three non-overlapping, easily measured, frequencies. The frequency splittings are consistent with the cavity s shape, as determined from dimensional measurements. We deduced epsilon of εr(p,T) of helium and of argon at 289 K and up to 7 MPa from the resonance frequencies fsigma,en,} the resonance half-widths gen,sigma} , and the compressibility of copper. Simultaneous measurements of epsilon of εr(p,T) with the quasi-spherical resonator and a cross capacitor agreed within 1x10-6 for helium, and for argon they differed by an average of only 1.4(multiplied by}10-6. This small difference is within the stated uncertainty of the capacitance measurements. For helium, the resonator results for epsilon r(p,T)} were reproducible over intervals of days with a standard uncertainty of 0.2×10^-6^, consistent with a temperature irreproducibility of 5 mK. We demonstrate that several properties of quasi-spherical cavity resonators make them well suited to epsilon r(p,T)} determinations. Ultimately, a quasi-spherical resonator may improve dielectric constant gas thermometry and realize a proposed pressure standard based on epsilon r(p,T)}.Citation
Review of Scientific Instruments
Volume
75
Issue
No. 10
Pub Type
Journals
Keywords
argon, dielectric constant, helium, metrology, microwave resonator, permittivity, pressure, resonator, temperature
Citation
Created September 30, 2004, Updated October 12, 2021