Non-perturbative on-chip light observation is achieved in silicon photonics waveguides by a novel integrated photonic probe. Light intensity monitoring is performed over 40 dB dynamic range, -30 dBm sensitivity, and microsecond scale time response
We demonstrate on-chip non-invasive monitoring of orthogonal modes transmitted in a silicon photonic...
We demonstrate non-invasive light observation in silicon photonics with a ContactLess Integrated Pho...
On-chip non-invasive monitoring of WDM-MDM channels transmitted through silicon-photonic waveguides ...
Photonic technologies lack non-invasive monitoring tools to inspect the light inside optical wavegui...
We demonstrate transparent monitoring of light in photonic integrated circuits, based on silicon and...
Non-invasive monitoring of silicon microring resonators is demonstrated through a novel contactless ...
Non-invasive monitoring of silicon microring resonators is demonstrated through a novel contactless ...
We demonstrate on-chip non-invasive monitoring of orthogonal modes transmitted in a silicon photonic...
We demonstrate non-invasive light observation in silicon photonics with a ContactLess Integrated Pho...
On-chip non-invasive monitoring of WDM-MDM channels transmitted through silicon-photonic waveguides ...
Photonic technologies lack non-invasive monitoring tools to inspect the light inside optical wavegui...
We demonstrate transparent monitoring of light in photonic integrated circuits, based on silicon and...
Non-invasive monitoring of silicon microring resonators is demonstrated through a novel contactless ...
Non-invasive monitoring of silicon microring resonators is demonstrated through a novel contactless ...
We demonstrate on-chip non-invasive monitoring of orthogonal modes transmitted in a silicon photonic...
We demonstrate non-invasive light observation in silicon photonics with a ContactLess Integrated Pho...
On-chip non-invasive monitoring of WDM-MDM channels transmitted through silicon-photonic waveguides ...
DOI
Add to ORKG