Field dependent magnetic anisotropy of Fe1−xZnx thin films

Abstract: 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 t… Show more

“…From this expression [11], it results that the rotatable anisotropy field associated with the stripe domain pattern cannot be measured by means of conventional magnetometry techniques, based on the balance of torques, leading to an equilibrium magnetization state (e.g., longitudinal MOKE hysteresis loop). Rather, one can use any (quasistatic or dynamic) experimental technique capable of exerting a nonzero torque on the film magnetization [e.g., TMOKE [11], rotational MOKE (ROTMOKE) [15], FMR [5,9,10], BLS [6,16]].…”

Rotatable magnetic anisotropy in a Fe0.8Ga0.2thin film with stripe domains: Dynamics versus statics

“…From this expression [11], it results that the rotatable anisotropy field associated with the stripe domain pattern cannot be measured by means of conventional magnetometry techniques, based on the balance of torques, leading to an equilibrium magnetization state (e.g., longitudinal MOKE hysteresis loop). Rather, one can use any (quasistatic or dynamic) experimental technique capable of exerting a nonzero torque on the film magnetization [e.g., TMOKE [11], rotational MOKE (ROTMOKE) [15], FMR [5,9,10], BLS [6,16]].…”

Rotatable magnetic anisotropy in a Fe0.8Ga0.2thin film with stripe domains: Dynamics versus statics

Strain-induced magnetization changes and magneto-volume effects in ferromagnets with cubic symmetry

Measuring magnetic anisotropy with a rotatable ac electromagnet