Gallium phosphide (GaP) has been increasingly prioritized, fueled by the enormous
demands in visible light applications such as biomedical and quantum technologies. GaP …

Diamond has emerged as a leading host material for solid-state quantum emitters, quantum
memories, and quantum sensors. However, the challenges in fabricating photonic devices in …

Quantum information technology offers the potential to realize unprecedented computational
resources via secure channels distributing entanglement between quantum computers …

Tunable nanophotonic resonators are an essential building block for material-integrated
photonic systems and solid-state cavity quantum electrodynamic experiments. Matching the …

Develo** reliable and efficient single-photon sources is crucial for advancing quantum
technologies, relying on nonlinear frequency conversion or spontaneous emission from …

Van der Waals (vdW) materials, including hexagonal boron nitride (hBN), are layered
crystalline solids with appealing properties for investigating light-matter interactions at the …

The compact size, scalability, and strongly confined fields in integrated photonic devices
enable new functionalities in photonic networking and information processing, both classical …

Diamond color centers are promising optically addressable solid-state spins that can be
matter-qubits, mediate deterministic interaction between photons, and act as single photon …

The silicon vacancy (SiV) center in diamond is drawing much attention due to its optical and
spin properties, attractive for quantum information processing and sensing. Comparatively …

Abstract Gallium Phosphide (GaP) has recently received considerable attention as a
suitable material for building photonic integrated circuits due to its remarkable optical and …