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    • 1. 发明授权
    • Pinned layer in magnetoresistive sensor
    • 磁阻传感器中的固定层
    • US07646569B2
    • 2010-01-12
    • US11458896
    • 2006-07-20
    • Jinshan LiKouichi NishiokaSatoshi ShigematsuAlexander M. Zeltser
    • Jinshan LiKouichi NishiokaSatoshi ShigematsuAlexander M. Zeltser
    • G11B5/127
    • G11B5/39
    • A method for manufacturing a magnetic read sensor and a magnetic read sensor are provided. In one embodiment of the invention, the method includes providing a seed layer disposed over a substrate of the magnetic read sensor, providing a free layer disposed over a seed layer and providing a spacer layer disposed over the free layer. The method further includes providing a pinned layer disposed over the spacer layer. In one embodiment, the pinned layer includes cobalt and iron, wherein the concentration of iron in the pinned layer is between 33 and 37 atomic percent (at. %). The method further includes providing a pinning layer disposed over the pinned layer, wherein the pinning layer is in contact with the pinned layer.
    • 提供了一种用于制造磁读取传感器和磁读取传感器的方法。 在本发明的一个实施例中,该方法包括提供设置在磁读取传感器的衬底上的种子层,提供设置在种子层上的自由层并提供设置在自由层之上的间隔层。 该方法还包括提供设置在间隔层上方的钉扎层。 在一个实施例中,钉扎层包括钴和铁,其中钉扎层中的铁的浓度为33至37原子百分比(原子%)。 该方法还包括提供设置在钉扎层上方的钉扎层,其中钉扎层与钉扎层接触。
    • 4. 发明授权
    • Method of making a magnetic sensing device having an insulator structure
    • 制造具有绝缘体结构的磁感测装置的方法
    • US07770282B2
    • 2010-08-10
    • US11219107
    • 2005-09-01
    • Alexander M. ZeltserJinshan LiBrian York
    • Alexander M. ZeltserJinshan LiBrian York
    • G11B5/127B05D3/04
    • G11B5/3909B82Y10/00B82Y25/00B82Y40/00G01R33/093G11B5/3163G11B5/3906H01F10/3254H01F10/3272H01F10/3281H01F41/18H01F41/303H01F41/325Y10T29/49043Y10T29/49044
    • A magnetic sensing device for use in a magnetic head includes a sensor stack structure having a sensing layer structure and an insulator structure formed adjacent the sensing layer structure. The insulator structure includes a plurality of oxidized metallic sublayers, a plurality of nitrided metallic sublayers, or a plurality of oxynitrided metallic sublayers. The insulator structure may be a capping layer structure of a giant magnetoresistance sensor or, alternatively, a tunnel barrier layer structure of a tunneling magnetoresistance sensor or a magnetic random access memory. Advantageously, each treated metallic sublayer is sufficiently uniformly treated so as to increase the magnetoresistive effect and improve soft magnetic properties of the magnetic sensing device. A method for use in forming the magnetic sensing device of the present application includes the steps of forming a sensor stack structure which includes a sensing layer structure; depositing a metallic layer; performing, on the metallic layer, either an oxidation, nitridation, or oxynitridation process; and repeating the steps of depositing and performing one or more times to thereby form an insulator structure.
    • 用于磁头的磁感测装置包括具有传感层结构的传感器堆叠结构和邻近传感层结构形成的绝缘体结构。 绝缘体结构包括多个氧化金属子层,多个氮化金属子层或多个氮氧化金属子层。 绝缘体结构可以是巨磁阻传感器的封盖层结构,或者是隧道磁阻传感器或磁随机存取存储器的隧道势垒层结构。 有利地,每个经处理的金属子层被充分均匀地处理,以增加磁阻效应并改善磁感测装置的软磁特性。 用于形成本申请的磁感测装置的方法包括以下步骤:形成包括感测层结构的传感器堆叠结构; 沉积金属层; 在金属层上进行氧化,氮化或氧氮化处理; 并重复沉积和执行一次或多次以形成绝缘体结构的步骤。
    • 8. 发明授权
    • Thin film disk with onset layer
    • 具有起始层的薄膜盘
    • US6143388A
    • 2000-11-07
    • US976565
    • 1997-11-24
    • Xiaoping BianMary Frances DoernerShanlin DuanJinshan LiMohammad Taghi Mirzamaani
    • Xiaoping BianMary Frances DoernerShanlin DuanJinshan LiMohammad Taghi Mirzamaani
    • G11B5/64G11B5/66G11B5/73
    • G11B5/732G11B5/656G11B5/66G11B5/7325Y10S428/90Y10T428/265
    • A thin film disk and a disk drive using the thin film disk are described. The disk has an onset layer between the underlayer and the boron containing magnetic layer, for example. The onset layer of the invention is useful because the boron containing magnetic layer material resists being deposited with the C-axis in plane. The onset layer material is selected to promote an in-plane C-axis orientation. When a boron containing magnetic layer is deposited on the onset layer the resulting in-plane PO is improved. The preferred onset layer is of hexagonal closed pack structured material which may be magnetic or nonmagnetic. Materials which are usable for the onset layer include a wide range of pure elements and cobalt alloys such as CoCr, CoPtCr, CoPtCrTa and CoCrB. The onset layer is particularly useful in allowing a ferromagnetic cobalt (Co) alloy containing a relatively high chromium and boron content to be deposited on nonmetallic substrates with the C-axis in the plane of disk without the need for negative bias during the sputtering of the underlayer.
    • 描述使用薄膜盘的薄膜盘和磁盘驱动器。 例如,盘在底层和含硼磁性层之间具有起始层。 本发明的起始层是有用的,因为含硼磁性层材料抵抗C平面上的沉积。 选择起始层材料以促进面内C轴取向。 当含硼磁性层沉积在起始层上时,所得到的面内PO得到改善。 优选的起始层是可以是磁性或非磁性的六边形封闭包装结构材料。 可用于起始层的材料包括宽范围的纯元素和钴合金,例如CoCr,CoPtCr,CoPtCrTa和CoCrB。 起始层特别适用于允许含有相对较高的铬和硼含量的铁磁性钴(Co)合金沉积在非金属基体上,其中C轴在盘平面中,而不需要在溅射期间的负偏压 底层
    • 10. 发明授权
    • Method and system for an energy assisted magnetic recording head having a suspension-mounted laser
    • 具有悬挂式激光器的能量辅助磁记录头的方法和系统
    • US08456963B1
    • 2013-06-04
    • US12758319
    • 2010-04-12
    • Yufeng HuRuolin LiUt TranJinshan Li
    • Yufeng HuRuolin LiUt TranJinshan Li
    • G11B11/00
    • G11B5/314G11B5/4866G11B5/6088G11B2005/0021
    • An energy assisted magnetic recording (EAMR) disk drive comprises a suspension and a slider having a back side, a laser-facing surface, and an air-bearing surface (ABS) opposite the back side. The slider is mounted to the suspension on the back side. The disk drive further comprises an EAMR transducer coupled with the slider, a portion of the EAMR transducer residing in proximity to the ABS and on the laser-facing surface of the slider. The disk drive further comprises a laser coupled with the suspension and having a light emitting surface facing the laser-facing surface of the slider. The laser has an optic axis substantially parallel to the suspension. The laser provides energy substantially along the optic axis and is optically coupled with the EAMR transducer via free space. The EAMR transducer receives the energy from the laser and writes to the media using the energy.
    • 能量辅助磁记录(EAMR)盘驱动器包括悬架和具有背面,面向激光的表面和与背面相对的空气轴承表面(ABS)的滑块。 滑块安装在背面的悬架上。 磁盘驱动器还包括与滑动器耦合的EAMR换能器,位于ABS附近的EAMR换能器的一部分和滑块的面向激光的表面。 磁盘驱动器还包括与悬架连接并具有面向滑块的面向激光的表面的发光表面的激光器。 激光器具有基本上平行于悬架的光轴。 激光器基本沿光轴提供能量,并通过自由空间与EAMR传感器光学耦合。 EAMR传感器从激光器接收能量,并使用能量写入介质。