Boosting Radios' ReSilience to Interference by Harnessing Magnon-Phonon Coupling In the Fi — NSF Award to Northeastern University
As 5G wireless services expand and the 6G era approaches, the American society will soon be able to leverage groundbreaking technologies to revolutionize communication, education, research, and decision-making. However, unlocking this potential requires the development of new on-chip radiofrequency (RF) systems allowin
| Award title | Boosting Radios' ReSilience to Interference by Harnessing Magnon-Phonon Coupling In the Fi |
|---|---|
| Award ID | 2503754 |
| Awardee | Northeastern University |
| City | BOSTON |
| State | MA |
| Amount obligated | $500,000 |
| Principal investigator | Cristian Cassella |
| Program | CSCS: Circuits and Systems for |
| Start date | 04/15/2025 |
| Abstract | As 5G wireless services expand and the 6G era approaches, the American society will soon be able to leverage groundbreaking technologies to revolutionize communication, education, research, and decision-making. However, unlocking this potential requires the development of new on-chip radiofrequency (RF) systems allowing wireless transceivers to transmit data at extremely high rates even in highly congested electromagnetic environments. Therefore, new technologies are needed to enhance these wire |
| Source | NSF Awards |
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