CAREER: Bridging Infrared and Visible Photonics with Chip-ready Nonlinear and Quantum Meta — NSF Award to University of California
Photonics is a powerful technology that enables ever-growing data transfer and inspires novel energy-efficient and reconfigurable architectures that will empower the computers of the future. However, the present diversity of colors in photonic chips calls for a universal approach to transfer signals from one light freq
| Award title | CAREER: Bridging Infrared and Visible Photonics with Chip-ready Nonlinear and Quantum Meta |
|---|---|
| Award ID | 2339271 |
| Awardee | University of California-Irvine |
| City | IRVINE |
| State | CA |
| Amount obligated | $550,000 |
| Principal investigator | Maxim Shcherbakov |
| Program | EPMQD: Electronic, Photonic, M |
| Start date | 03/01/2024 |
| Abstract | Photonics is a powerful technology that enables ever-growing data transfer and inspires novel energy-efficient and reconfigurable architectures that will empower the computers of the future. However, the present diversity of colors in photonic chips calls for a universal approach to transfer signals from one light frequency to another. Currently, chips carry near-infrared signals for communication, visible signals for imaging, and mid-infrared for thermal radiation and sensing applications. Conv |
| Source | NSF Awards |
$799/mo
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