Epitaxial quantum dots formed by III–V compound semiconductors are excellent sources of
non-classical photons, creating single photons and entangled multi-photon states on …

Room-temperature detection of molecular vibrations in the mid-infrared (MIR, λ= 3–30 µm)
has numerous applications, including real-time gas sensing, medical imaging and quantum …

Single-photon sources are one of the key components in quantum photonics applications.
These sources ideally emit a single photon at a time, are highly efficient, and could be …

Integrated photonic devices in diamond have tremendous potential for many quantum
applications, including long-distance quantum communication, quantum information …

Hybrid quantum optomechanical systems interface a macroscopic mechanical degree of
freedom with a single two-level system such as a single spin,–, a superconducting qubit,–or …

Nanophononics is essential for the engineering of thermal transport in nanostructured
electronic devices, it greatly facilitates the manipulation of mechanical resonators in the …

Quantum emitters with long-lived quantum memories are a promising scalable quantum
system for repeater-based quantum communications, quantum sensing, and distributed …

We propose a loop-coupled hybrid nanomechanical resonator (NR) system, in which a two-
level quantum dot is embedded into a doubly clamped NR coupled to another two NRs, and …

Hybrid quantum systems, which combine quantum-mechanical systems with macroscopic
mechanical oscillators, have attracted increasing interest as they are well suited as high …

Recent experiments demonstrated that GaAs/AlAs based micropillar cavities are promising
systems for quantum optomechanics, allowing the simultaneous three-dimensional …