Soft adjacent layer (SAL) magnetoresistive (MR) sensor element with
electrically insulated soft adjacent layer (SAL)
    1.
    发明授权
    Soft adjacent layer (SAL) magnetoresistive (MR) sensor element with electrically insulated soft adjacent layer (SAL) 失效
    具有电绝缘软相邻层(SAL)的软相邻层(SAL)磁阻(MR)传感器元件

    公开(公告)号:US6091589A

    公开(公告)日:2000-07-18

    申请号:US320756

    申请日:1999-05-27

    IPC分类号: G01R33/09 G11B5/39 G01B7/14

    摘要: Within a soft adjacent layer (SAL) magnetoresistive (MR) sensor element which may be employed within a magnetic head there is first employed a substrate. Formed over the substrate is a soft adjacent layer (SAL). In turn, formed upon the soft adjacent layer (SAL) is a dielectric layer. Finally, in turn, formed at least in part upon the dielectric layer is a magnetoresistive (MR) layer. Within the soft adjacent layer (SAL) magnetoresistive (MR) sensor element the soft adjacent layer (SAL) and the dielectric layer are planar. In addition, within the soft adjacent layer (SAL) magnetoresistive (MR) sensor element both an upper surface of the magnetoresistive (MR) layer and a lower interface of the magnetoresistive (MR) layer are non-planar.

    摘要翻译: 在可以在磁头内使用的软相邻层(SAL)磁阻(MR)传感器元件中,首先采用衬底。 形成在衬底上的是软相邻层(SAL)。 另外,形成在软相邻层(SAL)上的是电介质层。 最后,至少部分地形成在电介质层上的是磁阻(MR)层。 在软相邻层(SAL)磁阻(MR)传感器元件内,软相邻层(SAL)和电介质层是平面的。 此外,在软相邻层(SAL)磁阻(MR)传感器元件内,磁阻(MR)层的上表面和磁阻(MR)层的下界面都是非平面的。

    Single stripe magnetoresistive (MR) head
    3.
    发明授权
    Single stripe magnetoresistive (MR) head 失效
    单条磁阻(MR)头

    公开(公告)号:US06373667B1

    公开(公告)日:2002-04-16

    申请号:US09637208

    申请日:2000-08-14

    IPC分类号: G11B5127

    摘要: A method for fabricating a soft adjacent layer (SAL) magnetoresistive (MR) sensor element and several soft adjacent layer (SAL) magnetoresistive (MR) sensor elements which may be fabricated employing the method. There is first provided a substrate. There is formed over the substrate a dielectric layer, where the dielectric layer has a first surface of the dielectric layer and a second surface of the dielectric layer opposite the first surface of the dielectric layer. There is also formed over the substrate a magnetoresistive (MR) layer contacting the first surface of the dielectric layer. There is also formed over the substrate a soft adjacent layer (SAL), where the soft adjacent layer (SAL) has a first surface of the soft adjacent layer (SAL) and a second surface of the soft adjacent layer (SAL). The first surface of the soft adjacent layer (SAL) contacts the second surface of the dielectric layer. Finally, there is also formed over the substrate a transverse magnetic biasing layer, where the transverse magnetic biasing layer contacts the second surface of the soft adjacent layer (SAL), and where at least one of the dielectric layer, the magnetoresistive (MR) layer, the soft adjacent layer (SAL) and the transverse magnetic biasing layer is a patterned layer formed employing an etch mask which serves as a lift-off stencil for forming a patterned second dielectric layer adjoining an edge of the patterned layer. The invention also contemplates a soft adjacent layer (SAL) magnetoresistive (MR) sensor element formed with the magnetoresistive (MR) layer interposed between the substrate and the soft adjacent layer (SAL). Similarly, the invention also contemplates a soft adjacent layer (SAL) magnetoresistive (MR) sensor element employing a transverse magnetic biasing layer formed of a hard bias permanent magnet material.

    摘要翻译: 一种用于制造软相邻层(SAL)磁阻(MR)传感器元件和若干软相邻层(SAL)磁阻(MR))传感器元件的方法,其可以使用该方法制造。 首先提供基板。 在衬底上形成介电层,其中电介质层具有电介质层的第一表面和电介质层与电介质层的第一表面相对的第二表面。 还在衬底上形成与电介质层的第一表面接触的磁阻(MR)层。 还在衬底上形成软相邻层(SAL),其中软相邻层(SAL)具有软相邻层(SAL)的第一表面和软相邻层(SAL)的第二表面。 软相邻层(SAL)的第一表面接触电介质层的第二表面。 最后,还在衬底上形成横向磁偏置层,横向磁偏置层接触软相邻层(SAL)的第二表面,并且其中介电层,磁阻(MR)层中的至少一个 ,软相邻层(SAL)和横向磁偏置层是使用蚀刻掩模形成的图案层,其用作用于形成与图案化层的边缘相邻的图案化的第二介电层的剥离模板。 本发明还考虑了由介于基板和软相邻层(SAL)之间的磁阻(MR)层形成的软相邻层(SAL)磁阻(MR)传感器元件。 类似地,本发明还考虑使用由硬偏磁永磁材料形成的横向磁偏置层的软相邻层(SAL)磁阻(MR)传感器元件。

    Method for forming a soft adjacent layer (SAL) magnetoresistive (MR)
sensor element with transversely magnetically biased soft adjacent
layer (SAL)

    公开(公告)号:US6103136A

    公开(公告)日:2000-08-15

    申请号:US46007

    申请日:1998-03-23

    IPC分类号: G01R33/09 G11B5/39 B44C1/22

    摘要: A method for fabricating a soft adjacent layer (SAL) magnetoresistive (MR) sensor element and several soft adjacent layer (SAL) magnetoresistive (MR) sensor elements which may be fabricated employing the method. There is first provided a substrate. There is formed over the substrate a dielectric layer, where the dielectric layer has a first surface of the dielectric layer and a second surface of the dielectric layer opposite the first surface of the dielectric layer. There is also formed over the substrate a magnetoresistive (MR) layer contacting the first surface of the dielectric layer. There is also formed over the substrate a soft adjacent layer (SAL), where the soft adjacent layer (SAL) has a first surface of the soft adjacent layer (SAL) and a second surface of the soft adjacent layer (SAL). The first surface of the soft adjacent layer (SAL) contacts the second surface of the dielectric layer. Finally, there is also formed over the substrate a transverse magnetic biasing layer, where the transverse magnetic biasing layer contacts the second surface of the soft adjacent layer (SAL), and where at least one of the dielectric layer, the magnetoresistive (MR) layer, the soft adjacent layer (SAL) and the transverse magnetic biasing layer is a patterned layer formed employing an etch mask which serves as a lift-off stencil for forming a patterned second dielectric layer adjoining an edge of the patterned layer. The invention also contemplates a soft adjacent layer (SAL) magnetoresistive (MR) sensor element formed with the magnetoresistive (MR) layer interposed between the substrate and the soft adjacent layer (SAL). Similarly, the invention also contemplates a soft adjacent layer (SAL) magnetoresistive (MR) sensor element employing a transverse magnetic biasing layer formed of a hard bias permanent magnet material.

    Method of manufacture of a composite shared pole design for magnetoresistive merged heads
    5.
    发明授权
    Method of manufacture of a composite shared pole design for magnetoresistive merged heads 失效
    用于磁阻合并头的复合共轭极设计方法

    公开(公告)号:US06393692B1

    公开(公告)日:2002-05-28

    申请号:US09283840

    申请日:1999-04-01

    IPC分类号: H04R3100

    摘要: A merged read/write magnetic recording head comprises a low magnetic moment first magnetic shield layer over a substrate. A read gap layer with a magnetoresistive head is formed over the first shield layer. A shared pole comprises a low magnetic moment second magnetic shield layer plated on a sputtered seed PLM layer over the read gap layer, a non-magnetic layer plated over the PLM layer and a HMM lower pole layer plated over the second magnetic shield layer. A write gap layer is formed over the first high magnetic moment pole layer of the shared pole. An upper pole comprises a high magnetic moment pole layer over the write gap layer.

    摘要翻译: 合并的读/写磁记录头包括在衬底上的低磁矩第一磁屏蔽层。 在第一屏蔽层上形成具有磁阻头的读取间隙层。 共享极包括电镀在读取间隙层上的溅射种子PLM层上的低磁矩第二磁屏蔽层,镀在PLM层上的非磁性层和镀在第二磁屏蔽层上的HMM下极层。 在共享极的第一高磁矩极点上形成写间隙层。 上极包括写间隙层上的高磁矩极点层。

    Composite shared pole design for magnetoresistive merged heads
    6.
    发明授权
    Composite shared pole design for magnetoresistive merged heads 失效
    用于磁阻合并头的复合共享极设计

    公开(公告)号:US07012789B2

    公开(公告)日:2006-03-14

    申请号:US10131675

    申请日:2002-04-24

    IPC分类号: G11B5/127

    摘要: A merged read/write magnetic recording head comprises a low magnetic moment first magnetic shield layer over a substrate. A read gap layer with a magnetoresistive head is formed over the first shield layer. A shared pole comprises a low magnetic moment second magnetic shield layer plated on a sputtered seed PLM layer over the read gap layer, a non-magnetic layer plated over the PLM layer and a HMM lower pole layer plated over the second magnetic shield layer. A write gap layer is formed over the first high magnetic moment pole layer of the shared pole. An upper pole comprises a high magnetic moment pole layer over the write gap layer.

    摘要翻译: 合并的读/写磁记录头包括在衬底上的低磁矩第一磁屏蔽层。 在第一屏蔽层上形成具有磁阻头的读取间隙层。 共享极包括电镀在读取间隙层上的溅射种子PLM层上的低磁矩第二磁屏蔽层,镀在PLM层上的非磁性层和镀在第二磁屏蔽层上的HMM下极层。 在共享极的第一高磁矩极点上形成写间隙层。 上极包括写间隙层上的高磁矩极点层。

    Electrochemical method to improve MR reader edge definition and device reliability
    7.
    发明授权
    Electrochemical method to improve MR reader edge definition and device reliability 失效
    电化学方法提高MR读取器边缘定义和器件可靠性

    公开(公告)号:US06287476B1

    公开(公告)日:2001-09-11

    申请号:US09332429

    申请日:1999-06-14

    IPC分类号: G11B5127

    摘要: A method to form a passivation layer using an electrochemical process over a MR Sensor so that the passivation layer defines the MR track width. The passivation layer is formed by anodizing the MR sensor. The passivation layer is an electrical insulator (preventing Sensor current (I) from shunting through the overspray) and a heat conductor to allow MR heat to dissipate away from the MR sensor through the overspray. The method comprises: forming a passivation layer on the MR sensor; the passivation layer formed using an electrochemical process. Then we spinning-on and printing a lift-off photoresist structure over the passivation layer. The passivation layer is etched to remove the passivation layer not covered by the lift-off structure thereby defining a track width of the MR sensor. Then we deposit a lead layer over the passivation layer and MR sensor. The lift-off structure is removed where by the passivation layer defines a track width. The passivation layer is an electrical insulator that prevents sensor current (I) form shunting through overspray layers while allowing heat to dissipate through to the lead layer.

    摘要翻译: 使用MR传感器上的电化学过程形成钝化层的方法,使得钝化层限定MR磁道宽度。 通过阳极氧化MR传感器形成钝化层。 钝化层是电绝缘体(防止传感器电流(I)通过过喷)分流)和热导体,以允许MR热量通过过喷器散射离开MR传感器。 该方法包括:在MR传感器上形成钝化层; 使用电化学工艺形成钝化层。 然后我们旋转并在钝化层上印刷剥离光致抗蚀剂结构。 蚀刻钝化层以除去未被剥离结构覆盖的钝化层,从而限定MR传感器的轨道宽度。 然后我们在钝化层和MR传感器上沉积铅层。 去除剥离结构,其中钝化层限定轨道宽度。 钝化层是电绝缘体,其防止传感器电流(I)通过过喷层形成分流,同时允许热量散发到引线层。

    Method for forming soft adjacent layer (SAL) magnetoresistive (MR)
sensor element with electrically insulated soft adjacent layer (SAL)
    8.
    发明授权
    Method for forming soft adjacent layer (SAL) magnetoresistive (MR) sensor element with electrically insulated soft adjacent layer (SAL) 失效
    用电绝缘软相邻层(SAL)形成软相邻层(SAL)磁阻(MR)传感器元件的方法

    公开(公告)号:US5985162A

    公开(公告)日:1999-11-16

    申请号:US810059

    申请日:1997-03-05

    摘要: A soft adjacent layer (SAL) magnetoresistive (MR) sensor element and a method for fabricating the soft adjacent layer (SAL) magnetoresistive (MR) sensor element. To practice the method, there is first provided a substrate. There is formed over the substrate a dielectric layer which has a first surface of the dielectric layer and a second surface of the dielectric layer opposite the first surface of the dielectric layer. There is also formed over the substrate a magnetoresistive (MR) layer in contact with the first surface of the dielectric layer. Similarly, there is also formed over the substrate a soft adjacent layer (SAL) in contact with the second surface of the blanket dielectric layer, where the magnetoresistive (MR) layer, the soft adjacent layer (SAL) and the dielectric layer are planar and preferably at least substantially co-extensive. The invention contemplates the soft adjacent layer (SAL) magnetoresistive (MR) sensor element formed through the method of the invention.

    摘要翻译: 软相邻层(SAL)磁阻(MR)传感器元件和用于制造软相邻层(SAL)磁阻(MR)传感器元件的方法。 为了实践该方法,首先提供了一种衬底。 在衬底上形成介电层,其具有电介质层的第一表面和与电介质层的第一表面相对的电介质层的第二表面。 还在衬底上形成与电介质层的第一表面接触的磁阻(MR)层。 类似地,还在衬底上形成与橡皮布介电层的第二表面接触的软相邻层(SAL),其中磁阻(MR)层,软相邻层(SAL)和电介质层是平面的, 优选至少基本上共同扩展。 本发明设想通过本发明的方法形成的软相邻层(SAL)磁阻(MR)传感器元件。

    Process to form a flux concentration stitched write head
    10.
    发明授权
    Process to form a flux concentration stitched write head 失效
    形成通量集中缝合写头的工艺

    公开(公告)号:US06596468B1

    公开(公告)日:2003-07-22

    申请号:US09659790

    申请日:2000-09-11

    IPC分类号: G03C556

    摘要: A general process for filling a trench is described with particular emphasis on the formation of step P1 during the manufacture of a magnetic write head. The main feature of this process is that a liftoff mask is used for both the trench formation and the filling processes. As a result of this approach, the area surrounding the trench is not disturbed, the trench depth is not reduced, and the original overall planarity, prior to etching and filling, is maintained.

    摘要翻译: 描述了用于填充沟槽的一般过程,其特别强调在制造磁写头期间形成步骤P1。 该过程的主要特征是使用剥离掩模进行沟槽形成和填充过程。 作为这种方法的结果,沟槽周围的区域不受干扰,沟槽深度不减小,并且在蚀刻和填充之前保持原始的整体平面度。