Anomalous magnetization reversal due to proximity effect of antiphase boundaries

R. G.S. Sofin; Han Chun Wu; I. V. Shvets

doi:10.1103/PhysRevB.84.212403

Anomalous magnetization reversal due to proximity effect of antiphase boundaries

R. G.S. Sofin^*, Han Chun Wu, I. V. Shvets

^*Corresponding author for this work

Trinity College Dublin

Research output: Contribution to journal › Article › peer-review

18 Citations (Scopus)

Abstract

Here we report anomalous double switching hysteresis loop and high coercivity (∼0.1 T) in Fe ₃O ₄(110) thin films. Our analytical model based on spin chains confined within small antiphase boundary domains (APBDs) suggests a significant proximity effect of antiferromagnetic antiphase boundaries (APBs). Furthermore, the calculated domain size (D) follows the well-known scaling relation D=C√t. The results suggest that the interface exchange coupling between neighboring magnetic domains through antiferromagnetic APBs is responsible for the double switching hysteresis. Our findings could help advance the studies of anomalous properties of magnetic materials originating from growth defects. This effect can be utilized for the tunability of exchange bias in devices.

Original language	English
Article number	212403
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	84
Issue number	21
DOIs	https://doi.org/10.1103/PhysRevB.84.212403
Publication status	Published - 8 Dec 2011
Externally published	Yes

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title = "Anomalous magnetization reversal due to proximity effect of antiphase boundaries",

abstract = "Here we report anomalous double switching hysteresis loop and high coercivity (∼0.1 T) in Fe 3O 4(110) thin films. Our analytical model based on spin chains confined within small antiphase boundary domains (APBDs) suggests a significant proximity effect of antiferromagnetic antiphase boundaries (APBs). Furthermore, the calculated domain size (D) follows the well-known scaling relation D=C√t. The results suggest that the interface exchange coupling between neighboring magnetic domains through antiferromagnetic APBs is responsible for the double switching hysteresis. Our findings could help advance the studies of anomalous properties of magnetic materials originating from growth defects. This effect can be utilized for the tunability of exchange bias in devices.",

author = "Sofin, {R. G.S.} and Wu, {Han Chun} and Shvets, {I. V.}",

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AU - Sofin, R. G.S.

AU - Wu, Han Chun

AU - Shvets, I. V.

PY - 2011/12/8

Y1 - 2011/12/8

N2 - Here we report anomalous double switching hysteresis loop and high coercivity (∼0.1 T) in Fe 3O 4(110) thin films. Our analytical model based on spin chains confined within small antiphase boundary domains (APBDs) suggests a significant proximity effect of antiferromagnetic antiphase boundaries (APBs). Furthermore, the calculated domain size (D) follows the well-known scaling relation D=C√t. The results suggest that the interface exchange coupling between neighboring magnetic domains through antiferromagnetic APBs is responsible for the double switching hysteresis. Our findings could help advance the studies of anomalous properties of magnetic materials originating from growth defects. This effect can be utilized for the tunability of exchange bias in devices.

AB - Here we report anomalous double switching hysteresis loop and high coercivity (∼0.1 T) in Fe 3O 4(110) thin films. Our analytical model based on spin chains confined within small antiphase boundary domains (APBDs) suggests a significant proximity effect of antiferromagnetic antiphase boundaries (APBs). Furthermore, the calculated domain size (D) follows the well-known scaling relation D=C√t. The results suggest that the interface exchange coupling between neighboring magnetic domains through antiferromagnetic APBs is responsible for the double switching hysteresis. Our findings could help advance the studies of anomalous properties of magnetic materials originating from growth defects. This effect can be utilized for the tunability of exchange bias in devices.

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Anomalous magnetization reversal due to proximity effect of antiphase boundaries

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