Nanophotonics offers opportunities for engineering and exploiting the quantum properties of
light by integrating quantum emitters into nanostructures, and offering reliable paths to …

The central technological appeal of quantum science resides in exploiting quantum effects,
such as entanglement, for a variety of applications, including computing, communication and …

A key challenge in realizing practical quantum networks for long-distance quantum
communication involves robust entanglement between quantum memory nodes connected …

Long-distance quantum communication and networking require quantum memory nodes
with efficient optical interfaces and long memory times. We report the realization of an …

Practical quantum networks require interfacing quantum memories with existing channels
and systems that operate in the telecom band. Here we demonstrate low-noise, bidirectional …

Robust spin-photon interfaces in solids are essential components in quantum networking
and sensing technologies. Ideally, these interfaces combine a long-lived spin memory …

Structuring light emission from single-photon emitters (SPEs) in multiple degrees of freedom
is of great importance for quantum information processing towards higher dimensions …

The generation of entanglement between distant quantum systems is at the core of quantum
networking. In recent years, numerous theoretical protocols for remote-entanglement …

A contemporary challenge for the scalability of quantum networks is develo** quantum
nodes with simultaneous high photonic efficiency and long-lived qubits. Here we present a …

Tin-vacancy centers in diamond are promising spin-photon interfaces owing to their high
quantum efficiency, large Debye-Waller factor, and compatibility with photonic …