In this review, the current landscape of emergent quantum materials for quantum photonic
applications is described. The review focuses on three specific solid‐state platforms: single …

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

Single photon emitters (SPEs) in low-dimensional layered materials have recently gained a
large interest owing to the auspicious perspectives of integration and extreme …

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

Photonic integrated circuits (PICs) enable the miniaturization of optical quantum circuits
because several optic and electronic functionalities can be added on the same chip …

Quantum information science and engineering (QISE)—which entails the use of quantum
mechanical states for information processing, communications, and sensing—and the area …

Coherent interfaces between optical photons and long-lived matter qubits form a key
resource for a broad range of quantum technologies. Cavity quantum electrodynamics …

Semiconductor quantum dots (QDs) have recently emerged as a leading platform to
generate highly indistinguishable photons efficiently, and this work addresses the timely …

Sources of pure and indistinguishable single-photons are critical for near-future optical
quantum technologies. Recently, color centers hosted by two-dimensional hexagonal boron …

Indistinguishable single photons in the telecom-bandwidth of optical fibers are
indispensable for long-distance quantum communication. Solid-state single photon emitters …