Collaborative Research: PIC: Slow Wave Enhanced Electrooptically Tuned Michelson Interfero — NSF Award to University of Dayton (OH
The COVID pandemic of 2020 demonstrated the worldwide need for low-cost, highly sensitive, rapid diagnostic testing of diverse pathogens. While silicon photonics enables such a highly multiplexed labelfree sensing capability with extremely high sensitivities, a handheld low-cost silicon nanophotonic sensor is still mis
| Award title | Collaborative Research: PIC: Slow Wave Enhanced Electrooptically Tuned Michelson Interfero |
|---|---|
| Award ID | 2210707 |
| Awardee | University of Dayton |
| City | DAYTON |
| State | OH |
| Amount obligated | $358,076 |
| Principal investigator | Swapnajit Chakravarty |
| Program | CCSS-Comms Circuits & Sens Sys |
| Start date | 09/01/2022 |
| Abstract | The COVID pandemic of 2020 demonstrated the worldwide need for low-cost, highly sensitive, rapid diagnostic testing of diverse pathogens. While silicon photonics enables such a highly multiplexed labelfree sensing capability with extremely high sensitivities, a handheld low-cost silicon nanophotonic sensor is still missing. Fabrication imperfections have made photonic sensor implementations difficult with a fixed wavelength laser and a single detector. Photonic measurement variabilities also ari |
| Source | NSF Awards |
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