News
Scientists have successfully miniaturized a powerful erbium-based biber laser on a silicon-nitride photonic chip. Since typical erbium-based fiber lasers are large and difficult to scale down, the ...
PsiQuantum, the Silicon Valley photonic quantum computing startup, is claiming a significant breakthrough with a new high-volume process it says will be capable of manufacturing million-qubit-scale ...
This includes silicon nitride (Si3N4), which has been in use for 50 years, and Hydex, a family of photonic glass materials characterized by their high index of refraction and ultra-low optical losses ...
Report on how AI is driving market transformation - The global silicon photonics market size is estimated to grow by USD 5.24 billion from 2024-2028, according to Technavio. The market is ...
In his research, Peana discovered that if silicon nitride on silicon oxide is nanostructured into nanopillars and annealed, a single photon emitter forms over 65% of the time within the nanopillar.
Researchers at the Leibniz Institute of Photonic Technology (Leibniz IPHT) in Jena, Germany, together with international ...
Gallium nitride, a semiconductor renowned for its efficiency and high-speed capabilities, has long been recognized as a ...
The country is particularly strong in Indium Phosphide and Silicon Nitride photonic chips. With the new Silicon Valley base, PhotonDelta aims to combine the Netherlands’ strengths with US ...
In this collection, we aim to bring together cutting-edge research on nonlinear Integrated photonics, crossing multidisciplinary areas.
Scientists at the Technical University of Denmark (DTU) have scored a new record in silicon photonics research, achieving a never-before-seen data transfer of 1.84 petabits per second.
Hosted on MSN11mon
Early disease detection in body fluids using photonic biosensors - MSNThey are manufactured on a silicon nitride waveguide platform on 200 mm silicon wafers in the CMOS-compatible process line in one of Fraunhofer IPMS's state-of-the-art clean room facilities.
The distance between them thus minimized unwanted interference. “The top laser and the bottom ultralow-loss waveguide are very far away,” says Xiang, “so they can both have the best possible ...
Some results have been hidden because they may be inaccessible to you
Show inaccessible results