Optomechanical systems offer new opportunities in quantum information processing and
quantum sensing. Many solid-state quantum devices operate at millikelvin temperatures …

There has been significant recent interest in synthetic dimensions, where internal degrees of
freedom of a particle are coupled to form higher-dimensional lattices in lower-dimensional …

Dynamical radiation pressure effects in cavity optomechanical systems give rise to self-
sustained oscillations or 'phonon lasing'behavior, producing stable oscillators up to GHz …

Optomechanical systems in the well-resolved-sideband regime are ideal for studying a
myriad of quantum phenomena with mechanical systems, including backaction-evading …

Quantum mechanics imposes a limit on the precision of a continuous position measurement
of a harmonic oscillator, due to backaction arising from quantum fluctuations in the …

Directional transport is obtained in various multimode systems by driving multiple,
nonreciprocally interfering interactions between individual bosonic modes. However …

Cavity optomechanics has achieved groundbreaking control and detection of mechanical
oscillators, based on their coupling to linear electromagnetic modes. Recently, however …

Photon-pressure coupling between two superconducting circuits is a promising platform for
investigating radiation-pressure coupling in distinct parameter regimes and for the …

Recent optomechanical experiments have observed nonclassical properties in macroscopic
mechanical oscillators. A key indicator of such properties is the asymmetry in the strength of …

We consider an optomechanical cavity that is driven stroboscopically by a train of short
pulses. By suitably choosing the interpulse spacing we show that ground-state cooling and …