Remanent states and reversal behavior of nanopatterned spin-valve elements have been investigated using off-axis electron holography and Lorentz microscopy. Arrays of 30-nm-thick Co/Cu/Py (12, 6, and 12 nm, respectively) slotted rings with typical outer diameters ranging from 300 to 600 nm and slot angles of 30 deg, 60 deg, and 90 deg were fabricated by electron-beam lithography. Flux-closure configurations, with zero or one vortex, were the most common remanent states when magnetic fields were applied perpendicular to the slot direction. More complex configurations were introduced for fields parallel to the slot direction. Slotted nanorings with 300/100 nm of outer or inner diameter had the most uniform remanent configuration of fully closed flux. Holographic phase images confirmed that the Co and Py layers were coupled in opposite directions at remanence to minimize demagnetization energy. Magnetization reversal processes were investigated: the in-plane switching fields needed to fully reverse both ferromagnetic layers were typically on the order of 600 Oe.
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机译:使用偏离轴电子全息术和洛伦兹显微镜研究了纳米模式的旋转阀元件的剩余状态和逆转行为。 30nm厚的Co / Cu / py(12,6和12nm)的阵列分别为典型的外径,范围为300至600nm,槽角度为30°,60°和90°的槽角度通过电子束光刻。磁通闭合配置,零或一个涡流是最常见的磁场垂直于槽方向的偏移状态。为平行于槽方向的字段引入了更复杂的配置。具有300/100nm的外径或内径的开槽纳米导入具有最均匀的完全闭合通量的熔化配置最均匀。全息相位图像证实了CO和PY层以相反的方向耦合,以便最小化退磁能量。研究了磁化反转过程:完全反转的平面内切换场通常在600 OE的顺序上。
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