Add to ORKGWe report the measurement of the acoustic quality factor of a gram-scale, kilohertz-frequency superfluid resonator, detected through the parametric coupling to a superconducting niobium microwave cavity. For temperatures between 400 mK and 50 mK, we observe a T^(−4) temperature dependence of the quality factor, consistent with a 3-phonon dissipation mechanism. We observe Q factors up to 1.4×10^8, consistent with the dissipation due to dilute ^3He impurities, and expect that significant further improvements are possible. These experiments are relevant to exploring quantum behavior and decoherence of massive macroscopic objects, the laboratory detection of continuous gravitational waves from pulsars, and the probing of possible limits to phys...
Journal ArticleWe find a new collective shear-wave-like mode above Tλ, merging with the longitudinal...
The energy damping time in a mechanical resonator is critical to many precision metrology applicatio...
In this thesis we use quartz tuning fork resonators to probe properties of normal and superfluid 4He...
We report the measurement of the acoustic quality factor of a gram-scale, kilohertz-frequency superf...
We investigate the low loss acoustic motion of superfluid ^4He parametrically coupled to a very low ...
Superfluids, such as superfluid 3He and 4He, exhibit a broad range of quantum phenomena and excitati...
Direct detection of gravitational waves is opening a new window onto our universe. Here, we study th...
This is the author accepted manuscript.In quantum optomechanics, finding materials and strategies to...
We investigate the damping experienced by quartz tuning fork resonators in normal and superfluid 3He...
Nanoscale mechanical resonators are widely utilized to provide high sensitivity force detectors. Her...
Direct detection of gravitational waves is opening a new window onto our universe. Here, we study th...
Parametric excitation yields new results, which cannot be obtained by conventional linear spectrosco...
We present measurements of the damping experienced by custom-made quartz tuning forks submerged in 3...
We have measured the critical attenuation of sound at 1.1 GHz in pressurized helium 4 up to 20.4 bar...
The superfluid state, often obtained in the laboratory using liquid helium at very low temperatures,...
Journal ArticleWe find a new collective shear-wave-like mode above Tλ, merging with the longitudinal...
The energy damping time in a mechanical resonator is critical to many precision metrology applicatio...
In this thesis we use quartz tuning fork resonators to probe properties of normal and superfluid 4He...
We report the measurement of the acoustic quality factor of a gram-scale, kilohertz-frequency superf...
We investigate the low loss acoustic motion of superfluid ^4He parametrically coupled to a very low ...
Superfluids, such as superfluid 3He and 4He, exhibit a broad range of quantum phenomena and excitati...
Direct detection of gravitational waves is opening a new window onto our universe. Here, we study th...
This is the author accepted manuscript.In quantum optomechanics, finding materials and strategies to...
We investigate the damping experienced by quartz tuning fork resonators in normal and superfluid 3He...
Nanoscale mechanical resonators are widely utilized to provide high sensitivity force detectors. Her...
Direct detection of gravitational waves is opening a new window onto our universe. Here, we study th...
Parametric excitation yields new results, which cannot be obtained by conventional linear spectrosco...
We present measurements of the damping experienced by custom-made quartz tuning forks submerged in 3...
We have measured the critical attenuation of sound at 1.1 GHz in pressurized helium 4 up to 20.4 bar...
The superfluid state, often obtained in the laboratory using liquid helium at very low temperatures,...
Journal ArticleWe find a new collective shear-wave-like mode above Tλ, merging with the longitudinal...
The energy damping time in a mechanical resonator is critical to many precision metrology applicatio...
In this thesis we use quartz tuning fork resonators to probe properties of normal and superfluid 4He...