Journal
PHYSICAL REVIEW B
Volume 103, Issue 22, Pages -Publisher
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevB.103.L220403
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Funding
- SMART, a center funded by nCORE, a Semiconductor Research Corporation program - NIST
- NSF through the MRSEC program
- Minnesota Nano Center - NSF through the National Nano Coordinated Infrastructure Network [NNCI-1542202]
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An enhanced magnetoelastic contribution to the Gilbert damping in highly magnetostrictive Fe0.7Ga0.3 thin films is reported, with a large anisotropy of the Gilbert damping observed in all films. Broadband measurements of the ferromagnetic resonance linewidths over a range of temperatures are utilized to elucidate the effect of both magnetostriction and phonon relaxation on the magnetoelastic Gilbert damping.
We report an enhanced magnetoelastic contribution to the Gilbert damping in highly magnetostrictive Fe0.7Ga0.3 thin films. This effect is mitigated for perpendicular-to-plane fields, leading to a large anisotropy of the Gilbert damping in all of the films (up to a factor of 10 at room temperature). These claims are supported by broadband measurements of the ferromagnetic resonance linewidths over a range of temperatures (5 to 400 K), which serve to elucidate the effect of both the magnetostriction and phonon relaxation on the magnetoelastic Gilbert damping.
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