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    • 6. 发明申请
    • Magnetoresistive sensor having shape enhanced pinning, a flux guide structure and damage free virtual edges
    • 具有形状增强钉扎,磁通导向结构和无损虚拟边缘的磁阻传感器
    • US20080094761A1
    • 2008-04-24
    • US11588013
    • 2006-10-24
    • James Mac FreitagKuok San HoMustafa Michael PinarbasiChing Hwa Tsang
    • James Mac FreitagKuok San HoMustafa Michael PinarbasiChing Hwa Tsang
    • G11B5/127G11B5/33
    • G11B5/3932B82Y10/00B82Y25/00G11B5/3163G11B2005/3996
    • A magnetoresistive sensor having a shape enhanced pinning and a flux guide structure. The sensor includes a sensor stack with a pinned layer, spacer layer and pinned layer. First and second hard bias layers and lead layers extend from the sides of the sensor stack. The hard bias layers and leads have a stripe height that is smaller than the stripe height of the free layer, resulting in a free layer that extends beyond the back edge of the lead and hard bias layer. This portion of the free layer that extends beyond the back edge of the leads and hard bias layers provides a back flux guide. Similarly, the sensor may have a free layer that extends beyond the front edge of the lead and hard bias layers to provide a front flux guide. The pinned layer extends significantly beyond the back edge of the free layer, providing the pinned layer with a strong shape enhanced magnetic anisotropy. The sensor may have a lead over layer structure, with the sensor layers extending significantly beyond the inner ends of the leads, thereby moving the outer edges of the sensor layers outside of the track width of the sensor. This eliminates the effect of magnetic damage at the outer edges of the free layer.
    • 具有形状增强的钉扎和磁通引导结构的磁阻传感器。 传感器包括具有被钉扎层,间隔层和钉扎层的传感器堆叠。 第一和第二硬偏压层和引线层从传感器堆叠的侧面延伸。 硬偏置层和引线具有小于自由层的条纹高度的条纹高度,导致延伸超过引线和硬偏置层的后边缘的自由层。 自由层的延伸超过引线和硬偏置层的后边缘的部分提供了反向通量引导件。 类似地,传感器可以具有延伸超过引线和硬偏置层的前边缘的自由层,以提供前通量引导件。 被钉扎层明显地延伸超过自由层的后边缘,为钉扎层提供强的形状增强的磁各向异性。 传感器可以具有超导层结构,其中传感器层明显地超过引线的内端,从而将传感器层的外边缘移动到传感器的轨道宽度之外。 这消除了在自由层的外边缘处的磁损伤的影响。