Robust Multiparticle Quantum Plasmonic Sensing — NSF Award to Louisiana State University (LA, $363,915)
This project seeks to develop a new generation of quantum sensors that are not only highly sensitive but also scalable and robust under real-world conditions. Traditional quantum sensing technologies, while powerful, often rely on delicate quantum states that are easily disrupted by noise and loss, limiting their pract
| Award title | Robust Multiparticle Quantum Plasmonic Sensing |
|---|---|
| Award ID | 2517031 |
| Awardee | Louisiana State University |
| City | BATON ROUGE |
| State | LA |
| Amount obligated | $363,915 |
| Principal investigator | Omar Magana-Loaiza |
| Program | EPMD-ElectrnPhoton&MagnDevices |
| Start date | 10/01/2025 |
| Abstract | This project seeks to develop a new generation of quantum sensors that are not only highly sensitive but also scalable and robust under real-world conditions. Traditional quantum sensing technologies, while powerful, often rely on delicate quantum states that are easily disrupted by noise and loss, limiting their practical use outside controlled laboratory settings. This research takes a fundamentally different approach by designing quantum sensors that extract useful quantum features from class |
| Source | NSF Awards |
$799/mo
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