Nanomechanics has brought mesoscopic physics into the world of vibrations. Because
nanomechanical systems are small, fluctuations are significant, the vibrations already …

Many important phenomena in quantum devices are dynamic, meaning that they cannot be
studied using time-averaged measurements alone. Experiments that measure such transient …

The Internet of Medical Things (IoMT) is a compelling networking paradigm integrating
wireless communications sensors, connected devices, and embedded computing …

We adopt a geometric approach to describe the performance of adiabatic quantum
machines, operating under slow time-dependent driving and in contact with two reservoirs …

All clocks, in some form or another, use the evolution of nature toward higher entropy states
to quantify the passage of time. Because of the statistical nature of the second law and …

Mechanical resonators based on a single carbon nanotube are exceptional sensors of mass
and force. The force sensitivity in these ultralight resonators is often limited by the noise in …

Nanomechanical resonators are used with great success to couple mechanical motion to
other degrees of freedom, such as photons, spins and electrons,. The motion of a …

We introduce the “displacemon” electromechanical architecture that comprises a vibrating
nanobeam, eg, a carbon nanotube, flux coupled to a superconducting qubit. This platform …

Transport measurements have been an indispensable tool in studying conducting states of
matter. However, there exists a large set of interesting states that are insulating, often due to …

Quantum confinement leads to the formation of discrete electronic states in quantum dots.
Here we probe electron-phonon interactions in a suspended InAs nanowire double quantum …