In this work, the effect of silicon carbide (carborundum, SiC), as a boosting agent of the
mechanical response of the polycarbonate (PC) polymer, was investigated. The work aimed …

Silicon carbide is among the leading quantum information material platforms due to the long
spin coherence and single-photon emitting properties of its color center defects. Applications …

Triangular cross-section color center photonics in silicon carbide is a leading candidate for
scalable implementation of quantum hardware. Within this geometry, we model low-loss …

Achieving homogeneous performance metrics between nominally identical pixels is
challenging for the operation of arrays of superconducting nanowire single‐photon detectors …

Deployment of quantum telecommunication technologies requires single-photon light
emission, collection and detection capability at each network node in cryogenic …

Color center platforms have been at the forefront of quantum nanophotonics for applications
in quantum networking, computing, and sensing. However, large-scale deployment of this …

Triangular cross-section silicon carbide (SiC) color center photonics has recently emerged
as a very promising platform for quantum information processing. Here, we investigate the …

Detecting single photons is essential for applications such as dark matter detection,
quantum science and technology, and biomedical imaging. Superconducting nanowire …

Superconducting nanowire single-photon detectors (SNSPDs) are a key building block for
photonic quantum technologies, as they provide a means for efficient readout of optical …

Color center platforms have been at the forefront of quantum nanophotonics forapplications
in quantum networking, computing, and sensing. However, large-scaledeployment of this …