The generation, manipulation, storage, and detection of single photons play a central role in
emerging photonic quantum information technology. Individual photons serve as flying …

Semiconductor quantum dots (QDs) of various material systems are being heavily
researched for the development of solid state single photon emitters, which are required for …

The scaling of many photonic quantum information processing systems is ultimately limited
by the flux of quantum light throughout an integrated photonic circuit. Source brightness and …

Single photons are a fundamental element of most quantum optical technologies. The ideal
single-photon source is an on-demand, deterministic, single-photon source delivering light …

Progress in quantum computing and quantum cryptography requires efficient, electrically
triggered, single-photon sources at room temperature in the telecom wavelengths. It has …

The band-edge optical response of transition metal dichalcogenides, an emerging class of
atomically thin semiconductors, is dominated by tightly bound excitons localized at the …

Improving the quantum coherence of solid-state systems that mimic two-level atoms, for
instance spin qubits or single-photon emitters using semiconductor quantum dots, involves …

An on-demand source of indistinguishable and entangled photon pairs is a fundamental
component of various quantum information applications, including optical quantum …

In crystals, energy band extrema in momentum space can be identified by a valley index.
The internal quantum degree of freedom associated with valley pseudospin indices can act …

Single-photon sources based on semiconductor quantum dots offer distinct advantages for
quantum information, including a scalable solid-state platform, ultrabrightness and …