Cavity-enhanced 2D material quantum emitters deterministically integrated with silicon nitride microresonators
Optically active defects in 2D materials, such as hexagonal boron nitride (hBN) and
transition-metal dichalcogenides (TMDs), are an attractive class of single-photon emitters …
transition-metal dichalcogenides (TMDs), are an attractive class of single-photon emitters …
Microcavity-coupled emitters in hexagonal boron nitride
Integration of quantum emitters in photonic structures is an important step in the broader
quest to generate and manipulate on-demand single photons via compact solid-state …
quest to generate and manipulate on-demand single photons via compact solid-state …
Quantum emitters in 2D materials: Emitter engineering, photophysics, and integration in photonic nanostructures
Quantum emitters have become a vital tool for both fundamental science and emerging
technologies. In recent years, the focus in the field has shifted to exploration and …
technologies. In recent years, the focus in the field has shifted to exploration and …
Electrical control of lifetime-limited quantum emitters using 2D materials
Solid-state quantum emitters are a mainstay of quantum nanophotonics as integrated single-
photon sources (SPS) and optical nanoprobes. Integrating such emitters with active …
photon sources (SPS) and optical nanoprobes. Integrating such emitters with active …
Deterministic coupling of quantum emitters in 2D materials to plasmonic nanocavity arrays
Quantum emitters in two-dimensional materials are promising candidates for studies of light–
matter interaction and next generation, integrated on-chip quantum nanophotonics …
matter interaction and next generation, integrated on-chip quantum nanophotonics …
Coupling hexagonal boron nitride quantum emitters to photonic crystal cavities
Quantum photonics technologies require a scalable approach for the integration of
nonclassical light sources with photonic resonators to achieve strong light confinement and …
nonclassical light sources with photonic resonators to achieve strong light confinement and …
An inverse-designed nanophotonic interface for excitons in atomically thin materials
Efficient nanophotonic devices are essential for applications in quantum networking, optical
information processing, sensing, and nonlinear optics. Extensive research efforts have …
information processing, sensing, and nonlinear optics. Extensive research efforts have …
Deterministic fabrication of a coupled cavity–emitter system in hexagonal boron nitride
Light–matter interactions in optical cavities underpin many applications of integrated
quantum photonics. Among various solid-state platforms, hexagonal boron nitride (hBN) is …
quantum photonics. Among various solid-state platforms, hexagonal boron nitride (hBN) is …
Resonance fluorescence from waveguide-coupled, strain-localized, two-dimensional quantum emitters
Efficient on-chip integration of single-photon emitters imposes a major bottleneck for
applications of photonic integrated circuits in quantum technologies. Resonantly excited …
applications of photonic integrated circuits in quantum technologies. Resonantly excited …
High-yield, wafer-scale fabrication of ultralow-loss, dispersion-engineered silicon nitride photonic circuits
Low-loss photonic integrated circuits and microresonators have enabled a wide range of
applications, such as narrow-linewidth lasers and chip-scale frequency combs. To translate …
applications, such as narrow-linewidth lasers and chip-scale frequency combs. To translate …