ERI: Advanced Analytical Methods for Geometric Perturbation Agility in RF Resonators — NSF Award to Santa Clara University (CA, $1
Radio-frequency (RF) resonators are essential hardware building blocks for many electronic systems that we frequently use almost every day, including wireless phones, satellite Global Positioning System (GPS), microwave ovens, and automobile radars. They are responsible for selecting the frequencies over which the syst
| Award title | ERI: Advanced Analytical Methods for Geometric Perturbation Agility in RF Resonators |
|---|---|
| Award ID | 2501494 |
| Awardee | Santa Clara University |
| City | SANTA CLARA |
| State | CA |
| Amount obligated | $199,904 |
| Principal investigator | Adham Naji |
| Program | ERI-Eng. Research Initiation |
| Start date | 10/01/2025 |
| Abstract | Radio-frequency (RF) resonators are essential hardware building blocks for many electronic systems that we frequently use almost every day, including wireless phones, satellite Global Positioning System (GPS), microwave ovens, and automobile radars. They are responsible for selecting the frequencies over which the system operates or for crafting its antenna radiation pattern. As the systems evolve from one generation to next, these RF resonators face the demand to become more agile, with reconfi |
| Source | NSF Awards |
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