EAGER: Quantum Manufacturing: Machine learning-powered deterministic nanoassembly of ultra — NSF Award to University of Illinois a
Single photons carry quantum information faithfully and quickly, making quantum photonic networks a key component of all quantum information technologies. Realizing quantum photonic systems is not currently possible on a single material platform, and devices must be assembled from dissimilar materials. Quantum light ca
| Award title | EAGER: Quantum Manufacturing: Machine learning-powered deterministic nanoassembly of ultra |
|---|---|
| Award ID | 2240621 |
| Awardee | University of Illinois at Urbana-Champaign |
| City | URBANA |
| State | IL |
| Amount obligated | $250,000 |
| Principal investigator | Simeon Bogdanov |
| Program | CSCS: Circuits and Systems for |
| Start date | 09/01/2023 |
| Abstract | Single photons carry quantum information faithfully and quickly, making quantum photonic networks a key component of all quantum information technologies. Realizing quantum photonic systems is not currently possible on a single material platform, and devices must be assembled from dissimilar materials. Quantum light can be produced by atom-like systems in nanoscale particles, which can supply the required quantum functionality to the established classical photonic platforms. Nanoparticles are al |
| Source | NSF Awards |
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