Collaborative Research: Dynamic Reversal Phenomena in Advanced Magnetic Nanostructures — NSF Award to University of South Carolina
NON-TECHNICAL SUMMARY This project is building an improved understanding of how magnetic nanomaterials behave when they are placed in a magnetic field that oscillates back and forth in time. Also known as magnetic relaxation, these behaviors depend on the properties of the material, including what elements comprise the
| Award title | Collaborative Research: Dynamic Reversal Phenomena in Advanced Magnetic Nanostructures |
|---|---|
| Award ID | 2532467 |
| Awardee | University of South Carolina at Columbia |
| City | COLUMBIA |
| State | SC |
| Amount obligated | $532,285 |
| Principal investigator | Thomas Crawford |
| Program | METAL & METALLIC NANOSTRUCTURE |
| Start date | 02/15/2026 |
| Abstract | NON-TECHNICAL SUMMARY This project is building an improved understanding of how magnetic nanomaterials behave when they are placed in a magnetic field that oscillates back and forth in time. Also known as magnetic relaxation, these behaviors depend on the properties of the material, including what elements comprise the material, as well as what geometric shape the material is formed into. Intellectual merit: By changing the ratio of the elements included, as well as the length and diameter of ro |
| Source | NSF Awards |
$799/mo
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