Flat dots
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Transcript of Flat dots
Magnetization dynamics of single curved nanomagnets
Holger Schmidt, University of California-Santa Cruz, DMR 0806924
Dense nanomagnet arrays hold promise for near-term applications such as data storage, memory, biosensors and others. Curved magnets offer unique magnetic properties and can be fabricated rapidly and cheaply using self-assembly.
We are investigating the dynamic material properties of such nanomagnets in collaboration with U Chemnitz (Germany). Specifically, flat and curved nanodots of 100nm size show dramatically different magnetization dynamics. As seen on the right, the curved dots show a qualitatively richer spin wave spectrum with multiple modes. Micromagnetic simulations explain these findings and show mode-dependent areas of oscillation across the nanoelement.
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Flat dots Curved nanocaps
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Broader impact on multiple levels:
A: Exchange visit of US graduate student R. Brandt to collaborating university in Chemnitz, Germany.
B: Guest lecture on nano-magnetism to UCSC graduate class by Dr. Bruce Terris from industrial collaborator HGST, San Jose.
C: Hands-on demonstration of nanofabrication capabilities (dual beam electron/ion beam microscope) to COSMOS summer high school students by UCSC staff member R. Hoelle.
Magnetization dynamics of single curved nanomagnets
Holger Schmidt, University of California-Santa Cruz, DMR 0806924
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