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    • 1. 发明申请
    • TUNNELING MAGNETORESISTANCE (TMR) READ SENSOR WITH A LONG DIFFUSION PATH AND EX-SITU INTERFACES IN A SENSE LAYER STRUCTURE
    • TUNNELING MAGNETORESISTANCE(TMR)阅读传感器与长扩散路径和EX-SITU接口在感觉层结构
    • US20130164562A1
    • 2013-06-27
    • US13335642
    • 2011-12-22
    • Tsann Lin
    • Tsann Lin
    • G11B5/39H01F7/06
    • G11B5/3906G01R33/098G11B5/3163G11B5/3909G11B5/398G11B5/40H01F10/3254H01F10/3295Y10T29/4902Y10T428/1114Y10T428/1121Y10T428/1143
    • The invention provides a tunneling magnetoresistance (TMR) read sensor with a long diffusion path and ex-situ interfaces in a sense layer structure. The sense layer structure comprises a first sense layer preferably formed of a ferromagnetic Co—Fe film, a second sense layer preferably formed of a ferromagnetic Co—Fe—B film, and a third sense layer preferably formed of a ferromagnetic Ni—Fe film. The sense layer structure has a long diffusion path (defined as a total thickness of the first and second sense layers) and ex-situ interfaces for suppressing unwanted diffusions of Ni atoms. Alternatively, the sense layer structure comprises a first sense layer preferably formed of a ferromagnetic Co—Fe film, a second sense layer preferably formed of a ferromagnetic Co—Fe—B film, a third sense layer preferably formed of a ferromagnetic Co—Fe—B—Hf film, and a fourth sense layer preferably formed of a ferromagnetic Ni—Fe film.
    • 本发明提供了一种在感应层结构中具有长扩散路径和非原位界面的隧道磁阻(TMR)读取传感器。 感测层结构包括优选由铁磁Co-Fe膜形成的第一感测层,优选由铁磁性Co-Fe-B膜形成的第二感测层和优选由铁磁性Ni-Fe膜形成的第三感测层。 感应层结构具有长的扩散路径(定义为第一和第二感测层的总厚度)和用于抑制Ni原子的不期望的扩散的非原位界面。 或者,感测层结构包括优选由铁磁性Co-Fe膜形成的第一感测层,优选由铁磁性Co-Fe-B膜形成的第二感测层,优选由铁磁性Co-Fe-B膜形成的第三感测层, B-Hf膜,以及优选由铁磁性Ni-Fe膜形成的第四感测层。
    • 5. 发明授权
    • Method and apparatus providing a stabilized top shield in read head for magnetic recording
    • 在读磁头中提供稳定的顶部屏蔽用于磁记录的方法和装置
    • US07599153B2
    • 2009-10-06
    • US11362628
    • 2006-02-27
    • Tsann Lin
    • Tsann Lin
    • G11B5/33
    • G11B5/3116G11B5/11G11B5/3912G11B5/3932G11B5/3967G11B5/398
    • A method and apparatus providing a stabilized top shield in a read head used for the longitudinal or perpendicular magnetic recording is disclosed. The top shield includes a laminate structure including at least three layers of ferromagnetic and antiferromagnetic films in a frame. Unidirectional anisotropy induced at the interface of the ferromagnetic and antiferromagnetic films is optimized by selecting suitable compositions and thicknesses to achieve the stabilization of the top shield while maintaining high permeability. In an alternative method, the top shield includes a ferromagnetic Ni—Fe film in a central region and multiple layers comprising ferromagnetic Co—Fe and Ni—Fe layers and an antiferromagnetic layer. Unidirectional anisotropy induced at the interfaces of ferromagnetic and antiferromagnetic layers by selecting suitable compositions and thicknesses of the ferromagnetic and antiferromagnetic layers to achieve the stabilization of the top shield through magnetostatic interactions between the central and side regions.
    • 公开了一种在用于纵向或垂直磁记录的读取头中提供稳定的顶部屏蔽的方法和装置。 顶部屏蔽包括在框架中包括至少三层铁磁性和反铁磁性膜的层压结构。 通过选择合适的组成和厚度来优化在铁磁和反铁磁膜的界面处引起的单向各向异性,以实现顶部屏蔽的稳定性,同时保持高磁导率。 在替代方法中,顶部屏蔽包括在中心区域的铁磁性Ni-Fe膜,以及包含铁磁Co-Fe和Ni-Fe层的多层和反铁磁性层。 通过选择铁磁和反铁磁层的合适组成和厚度来实现铁磁性和反铁磁性层的界面处的单向各向异性,以通过中央和侧面区域之间的静磁相互作用实现顶部屏蔽的稳定。
    • 6. 发明授权
    • GMR sensors with strongly pinning and pinned layers
    • GMR传感器具有强固定和固定层
    • US07554775B2
    • 2009-06-30
    • US11069306
    • 2005-02-28
    • Jinshan LiTsann Lin
    • Jinshan LiTsann Lin
    • G11B5/39
    • B82Y25/00B82Y10/00G11B5/3929G11B2005/3996
    • A giant magnetoresistance (GMR) sensor with strongly pinning and pinned layers is described for magnetic recording at ultrahigh densities. The pinning layer is an antiferromagnetic (AFM) iridium-manganese-chromium (Ir—Mn—Cr) film having a Mn content of approximately from 70 to 80 atomic percent and having a Cr content of approximately from 1 to 10 atomic percent. The first pinned layer is preferably a ferromagnetic Co—Fe having an Fe content of approximately from 20 to 80 at % and having high, positive saturation magnetostriction. The second pinned layer is preferably a ferromagnetic Co—Fe having an Fe content of approximately from 0 to 10 atomic percent. The net magnetic moment of the first and second pinned layers is designed to be nearly zero in order to achieve a pinning field of beyond 3,000 Oe.
    • 描述了具有强钉扎和钉扎层的巨磁阻(GMR)传感器用于超高密度的磁记录。 钉扎层是具有大约70至80原子%的Mn含量并且Cr含量约为1至10原子%的反铁磁(AFM)铱 - 锰 - 铬(Ir-Mn-Cr)膜。 第一被钉扎层优选为Fe含量为约20至80at%且具有高正饱和磁致伸缩的铁磁性Co-Fe。 第二被钉扎层优选为Fe含量约为0〜10原子%的铁磁Co-Fe。 第一和第二被钉扎层的净磁矩被设计为几乎为零,以便实现超过3,000Oe的钉扎场。