The field of cavity optomechanics is reviewed. This field explores the interaction between
electromagnetic radiation and nanomechanical or micromechanical motion. This review …

Entanglement, an essential feature of quantum theory that allows for inseparable quantum
correlations to be shared between distant parties, is a crucial resource for quantum …

Continuously measured quantum systems are characterized by an output current, in the form
of a stochastic and correlated time series, which conveys crucial information about the …

Entanglement is a key element in quantum information processing. Here, we present
schemes to generate robust photon entanglement via optomechanical quantum interfaces in …

Using pulsed optical excitation and read-out along with single-phonon-counting techniques,
we measure the transient backaction, heating, and damping dynamics of a nanoscale silicon …

Recent studies show that hybrid quantum systems based on magnonics provide a new and
promising platform for generating macroscopic quantum states involving a large number of …

We propose to cool a mechanical resonator close to its ground state via an
electromagnetically-induced-transparency (EIT)-like cooling mechanism in a double-cavity …

In optics, the ability to measure individual quanta of light (photons) enables a great many
applications, ranging from dynamic imaging within living organisms to secure quantum …

It was shown [New J. Phys. 17, 103037 (2015) NJOPFM 1367-2630 10.1088/1367-
2630/17/10/103037] that large and robust entanglement between two different mechanical …

We propose a simple method to generate quantum entanglement between two macroscopic
mechanical resonators in a two-cavity optomechanical system. This entanglement is …