Optical waveguides and resonators constitute fundamental building blocks in modern photonics, enabling the tight confinement, routing, and manipulation of light on chip-scale platforms. These ...

Building on previous work that realized Euclidean lattice models using circuit quantum electrodynamics (QED) and interconnected networks of superconducting microwave resonators, researchers at ...

Researchers have succeeded in making the thinnest ever optical device in the form of a waveguide just three atomic layers thick. The device could lead to the development of higher density ...

CU Boulder researchers have built high-performing optical microresonators, opening the door for new sensor technologies. At ...

Resonators are devices used to amplify wavelengths,they exist in many devices and come in many forms. Resonators commonly exist in science as mechanical, acoustic (sound), optical (light), microwave ...

Wisbey's research interests include materials for quantum computing, microwave resonators and amplifiers, and neutron detectors. Currently, he uses coplanar waveguides as a tool to probe different ...

Caltech’s new fiber-like photonic chips achieve record-low visible-light loss, enabling more coherent lasers and next-generation quantum and sensing technologies.

Atomic interactions in everyday solids and liquids are so complex that some of these materials’ properties continue to elude physicists’ understanding. Solving the problems mathematically is beyond ...

Commercially viable quantum computers are at least several years away, but some researchers already are questioning whether existing EDA tools will be sufficient for designing quantum chips and ...