There are a number of theoretical predictions for astrophysical and cosmological objects,
which emit high frequency (1 0 6-1 0 9 Hz) gravitation waves (GW) or contribute somehow to …

Abstract Low loss Bulk Acoustic Wave devices are considered from the point of view of the
solid state approach as phonon-confining cavities. We demonstrate effective design of such …

Ultralight scalars are an interesting dark matter candidate that may produce a mechanical
signal by modulating the Bohr radius. Recently it has been proposed to search for this signal …

Abstract The Multi-mode Acoustic Gravitational wave Experiment (MAGE) is a high
frequency gravitational wave detection experiment. In its first stage, the experiment features …

Low-loss, high frequency acoustic resonators cooled to millikelvin temperatures are a topic
of great interest for application to hybrid quantum systems. When cooled to 20 mK, we show …

The confinement of high frequency phonons approaching 1 GHz is demonstrated in phonon-
trapping acoustic cavities at cryogenic temperatures using a low-coupled network approach …

Trapped charged particles have been at the forefront of quantum information processing
(QIP) for a few decades now, with deterministic two-qubit logic gates reaching record …

We propose and demonstrate a test of Lorentz symmetry based on new, compact, and
reliable quartz oscillator technology. Violations of Lorentz invariance in the matter and …

Micro-and nanomechanical resonators with ultralow dissipation have great potential as
useful quantum resources. The superfluid micromechanical resonators presented here …

Thermal Nyquist noise fluctuations of high-Q bulk acoustic wave cavities have been
observed at cryogenic temperatures with a DC superconducting quantum interference …