2007
DOI: 10.1007/s10909-006-9279-4
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Quartz Tuning Fork: Thermometer, Pressure- and Viscometer for Helium Liquids

Abstract: Commercial quartz oscillators of the tuning-fork type with a resonant frequency of ∼ 32 kHz have been investigated in helium liquids. The oscillators are found to have at best Q values in the range 10 5 -10 6 , when measured in vacuum below 1.5 K. However, the variability is large and for very low temperature operation the sensor has to be preselected. We explore their properties in the regime of linear viscous hydrodynamic response in normal and superfluid 3 He and 4 He, by comparing measurements to the hydro… Show more

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Cited by 234 publications
(231 citation statements)
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“…The physical parameters of the fork such as force and velocity can be determined from the applied voltage and measured current [2]. The force experienced by the fork prong is determined by the applied voltage V and is given by F = aV /2, where the coefficient a is termed the fork constant.…”
Section: Methodsmentioning
confidence: 99%
See 3 more Smart Citations
“…The physical parameters of the fork such as force and velocity can be determined from the applied voltage and measured current [2]. The force experienced by the fork prong is determined by the applied voltage V and is given by F = aV /2, where the coefficient a is termed the fork constant.…”
Section: Methodsmentioning
confidence: 99%
“…To quantitatively explain our results, we follow the approach and annotation described by Blaauwgeers et al [2] and Bradley et al [10] by assuming that the viscous penetration depth (∼1 µm for both forks) is much smaller than the fork dimensions and that acoustic damping is negligible at resonance frequencies below 100 kHz. In such case, it is possible to employ the two-fluid model of the superfluid and to obtain the fork resonance frequency and resonance width using the hydrodynamic contributions to the effective mass and Stokes' drag.…”
Section: Temperature Dependence Of Resonance Propertiesmentioning
confidence: 99%
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“…Quartz tuning forks have very high quality factors, of order 10 5 , making them sufficiently sensitive to study the mechanical properties of helium fluids at low temperatures. They have found many applications in superfluids research including measurements of viscosity [5][6][7], quantum turbulence in 4 He [8][9][10], cavitation [11], Andreev scattering in 3 He-B [12,13] and acoustic modes [14][15][16]. Here we describe their use as sensitive probes of ballistic quasiparticles in superfluid 3 He-B.…”
mentioning
confidence: 99%