C. M. Kuster scite author profile

C. M. Kuster

2Publications

4Citation Statements Received

28Citation Statements Given

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Carroll University

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Field dependent magnetic anisotropy of Ga0.2Fe0.8 thin films

Resnick

McClure

Kuster

et al. 2011

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Using longitudinal MOKE in combination with a variable strength rotating magnetic field, called the rotational MOKE (ROTMOKE) method, we show that the magnetic anisotropy for a Ga0.2Fe0.8 single crystal film with a thickness of 17 nm, grown on GaAs (001) with a thick ZnSe buffer layer, depends linearly on the strength of the applied magnetic field. The torque moment curves generated using ROTMOKE are well fit with a model that accounts for the uniaxial, cubic, or fourfold anisotropy, as well as additional terms with a linear dependence on the applied magnetic field. The uniaxial and cubic anisotropy fields, taken from both the hard and the easy axis scans, are seen to remain field independent. The field dependent terms are evidence of a large affect of the magnetostriction and its contribution to the effective magnetic anisotropy in GaxFe1−x thin films.

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Field dependent magnetic anisotropy of Fe1−xZnx thin films

Resnick

McClure

Kuster

et al. 2013

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Using longitudinal magneto-optical Kerr effect in combination with a variable strength rotating magnetic field, called the Rotational Magneto-Optic Kerr Effect (ROTMOKE) method, we show that the magnetic anisotropy for thin Fe82Zn18 single crystal films, grown on MgO(001) substrates, depends linearly on the strength of the applied magnetic field at low fields but is constant (saturates) at fields greater than 350 Oe. The torque moment curves generated using ROTMOKE are well fit with a model that accounts for the uniaxial and cubic anisotropy with the addition of a cubic anisotropy that depends linearly on the applied magnetic field. The field dependent term is evidence of a large effect on the effective magnetic anisotropy in Fe1−xZnx thin films by the magnetostriction.

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C. M. Kuster

Field dependent magnetic anisotropy of Ga0.2Fe0.8 thin films

Field dependent magnetic anisotropy of Fe1−xZnx thin films

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