Optical coupling in silicon photonics addresses the fundamental challenge of efficiently transferring light between optical fibres or external sources and high-index-contrast silicon waveguides. The ...
A team of researchers at Chalmers University of Technology has found a way to create self-assembling optical cavities that can reach a strong-coupling state that supports polariton formation. In their ...
New research has shown how the quantum mechanical principle of strong coupling opens unrivalled possibilities for designing optical filters. A team of researchers from the University of Cologne, ...
Team reviews 2024 photonics advances, including free-electron coupling with nonlinear optical states
Nonlinear optical dynamics—intensity-dependent response of light upon interaction with materials under high-intensity light sources—are of huge significance in modern photonics, finding applications ...
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MIT researchers move closer to petabit-speed chips with breakthrough in photonic integration
As artificial intelligence, cloud computing, and high-performance data centers continue to drive global demand ...
The research team achieved the hybrid spin-orbit coupling-driven optical spin Hall effect at room temperature for the first time through an organic microcavity structure. The device is a Fabry–Perot ...
MIT researchers have developed electronic-photonic integration technologies that could enable petabit-scale data transfer ...
2D van der Waals magnetic/non-magnetic heterojunctions hold significant promise for spintronic devices. Achieving these functionalities hinges on the interfacial proximity effect, a critical factor.
ACON OPTICS (TWSE: 6820), a leading provider of advanced optical connectivity solutions, showcased its latest innovations in ...
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