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    • 91. 发明申请
    • Process of octagonal pole for microwave assisted magnetic recording (MAMR) writer
    • 微波辅助磁记录(MAMR)作者八角极的过程
    • US20110216447A1
    • 2011-09-08
    • US12660819
    • 2010-03-03
    • Min LiCherng-Chyi HanKenichi TakanoJoe Smyth
    • Min LiCherng-Chyi HanKenichi TakanoJoe Smyth
    • G11B5/33G03F7/20
    • G11B5/314G11B5/1278G11B2005/0024
    • A microwave assisted magnetic recording writer is disclosed with an octagonal write pole having a top portion including a trailing edge that is self aligned to a spin transfer oscillator (STO). Leading and trailing edges are connected by two sidewalls each having three sections. A first section on each side is coplanar with the STO sidewalls and is connected to a sloped second section at a first corner. Each second section is connected to a third section at a second corner where the distance between second corners is greater than the distance between first corners. A method of forming the writer begins with a trapezoidal shaped write pole in an insulation layer. Two ion beam etch (IBE) steps are used to shape top and middle portions of the write pole and narrow the pole width to
    • 公开了一种具有八角写磁极的微波辅助磁记录装置,其具有包括与自旋转移振荡器(STO)自对准的后沿的顶部。 前缘和后缘由具有三个部分的两个侧壁连接。 每侧的第一部分与STO侧壁共面,并且在第一角处连接到倾斜的第二部分。 每个第二部分连接到第二角处的第三部分,其中第二角之间的距离大于第一角之间的距离。 一种形成写入器的方法从绝缘层中的梯形写入极开始。 使用两个离子束蚀刻(IBE)步骤来形成写入极的顶部和中间部分,并且将极宽度窄化到<50nm而不破裂。 最后,在STO上形成一个后挡板。
    • 92. 发明授权
    • Abutted exchange bias design for sensor stabilization
    • 传感器稳定的基准交换偏置设计
    • US07283337B2
    • 2007-10-16
    • US11074270
    • 2005-03-04
    • Masanori SakaiKunliang ZhangKenichi TakanoChyu-Jiuh TorngYunfei LiPo-Kang Wang
    • Masanori SakaiKunliang ZhangKenichi TakanoChyu-Jiuh TorngYunfei LiPo-Kang Wang
    • G11B5/127
    • G11B5/3932
    • A hard bias (HB) structure for biasing a free layer in a MR sensor within a magnetic read head is comprised of a main biasing layer with a large negative magnetostriction (λS) value. Compressive stress in the device after lapping induces a strong in-plane anisotropy that effectively provides a longitudinal bias to stabilize the sensor. The main biasing layer is formed between two FM layers, and at least one AFM layer is disposed above the upper FM layer or below the lower FM layer. Additionally, there may be a Ta/Ni or Ta/NiFe seed layer as the bottom layer in the HB structure. Compared with a conventional abutted junction exchange bias design, the HB structure described herein results in higher output amplitude under similar asymmetry sigma and significantly decreases sidelobe occurrence. Furthermore, smaller MRWu with a similar track width is achieved since the main biasing layer acts as a side shield.
    • 用于偏置磁读头内的MR传感器中的自由层的硬偏置(HB)结构包括具有大的负磁致伸缩(λS S S S S)值的主偏置层。 研磨后装置中的压缩应力引起强的面内各向异性,其有效地提供纵向偏压以稳定传感器。 主偏置层形成在两个FM层之间,并且至少一个AFM层设置在上FM层上方或下FM层的下方。 另外,可以存在作为HB结构中的底层的Ta / Ni或Ta / NiFe种子层。 与传统的邻接结交换偏置设计相比,本文所述的HB结构在类似的不对称西格玛下产生更高的输出幅度,并显着降低旁瓣发生。 此外,由于主偏置层用作侧屏蔽,所以实现了具有相似轨道宽度的较小MRWu。
    • 94. 发明授权
    • Yoke structure with constricted width
    • 具有收缩宽度的轭结构
    • US07061717B2
    • 2006-06-13
    • US10443362
    • 2003-05-22
    • Kenichi Takano
    • Kenichi Takano
    • G11B5/127
    • G11B5/3109
    • In current high density magnetic memory systems a large write current is used, giving its waveform a large overshoot. This often brings about severe excess saturation of the media so the recorded transition quality degrades. This problem has been overcome by constricting a portion of the write head yoke. This effectively places a flux control valve ahead of the write pole tip which reduces the sensitivity of the write field to the write current as well as to other parameters, thereby enabling the write field to rise very rapidly without an excessive increase in the write width and reducing its sensitivity to the write current at low current values.
    • 在当前的高密度磁存储器系统中,使用大的写入电流,使其波形具有大的过冲。 这通常会导致媒体严重过度饱和,因此记录的转换质量下降。 通过收缩写磁头磁轭的一部分来克服这个问题。 这有效地将磁通控制阀放置在写入极尖之前,这降低了写入场对写入电流的灵敏度以及其他参数,从而使得写入场能够非常快地上升,而不会使写入宽度过度增加, 在低电流值下降低对写入电流的灵敏度。