Quantum mechanics promises to have a strong impact on many aspects of research and
technology, improving classical analogues via purely quantum effects. A large variety of …

Transfer printing is becoming widely adopted as a back-end process for the hybrid
integration of photonic and electronic devices. Integration of membrane components, with …

Silicon photonics is a powerful platform for implementing large-scale photonic integrated
circuits (PICs) because of its compatibility with mature complementary-metal-oxide …

Photonic spiking neural networks (PSNNs) potentially offer exceptionally high throughput
and energy efficiency compared to their electronic neuromorphic counterparts while …

A quantum photonic integrated circuit (QPIC) is a promising tool for constructing integrated
devices for quantum-technology applications. In the optical regime, silicon photonics …

Silicon-based photonics allows thousands of optical components to be integrated. It
provides a path to the development of scalable, low-cost photonic integrated circuits akin to …

Thin film 4H‐silicon carbide (4H‐SiC) is emerging as a contender for realizing large‐scale
optical quantum circuits due to its high CMOS technology compatibility and large optical …

Silicon quantum photonics provides a promising pathway to realize large-scale quantum
photonic integrated circuits (QPICs) by exploiting the power of complementary-metal-oxide …

We report a quantum-dot single-photon source (QD SPS) hybrid integrated on a silicon
waveguide embedding a photonic crystal mirror, which reflects photons and enables …

While there have been notable advancements in Si-based optical integration, achieving
compact and efficient continuous-wave (CW) III-V semiconductor nanolasers on Si at room …