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    • 6. 发明授权
    • Data storage and retrieval apparatus with thin film read head having inset extra gap insulation layer and method of fabrication
    • 具有薄膜读取头的数据存储和检索装置具有插入额外的间隙绝缘层和制造方法
    • US06762910B1
    • 2004-07-13
    • US09325104
    • 1999-06-03
    • Kenneth E. KnappZi-Wen DongRonald A. BarrRussel StearnsBill Crue
    • Kenneth E. KnappZi-Wen DongRonald A. BarrRussel StearnsBill Crue
    • G11B531
    • B82Y25/00B82Y10/00G11B5/23G11B5/3116G11B5/313G11B5/3133G11B5/3903G11B5/3909G11B5/40
    • The present invention provides a thin film read head having a lower shield pedestal with an adjacent lower extra gap layer. The pedestal may be formed from a lower shield layer with the lower extra gap layer being inset within the lower shield layer so that the top surfaces of the lower extra gap layer and the pedestal are generally planar. This allows for deposition of generally planar lower gap and sensor layers. A sensor element may be defined on the generally planar surface using a bilayer resist structure. The generally planar surface of the sensor layer inhibits resist pooling which could otherwise degrade resist structure and sensor element formation. In a typical embodiment, the read head of the present invention may have a spin valve type sensor element with leads electrically coupled to the sensor element, an upper gap layer extending between the sensor element and the upper shield layer, and an upper extra gap layer disposed between at least a portion of the leads and the upper shield layer. Furthermore, the read head typically is embodied in a data storage and retrieval apparatus having a merged read/write head assembly. Reducing surface topography allows for better control of resist deposition and patterning. As such, smaller, more robust resist structures may be formed on the sensor layer to define a smaller track width sensor element. This allows manufacture of reduced track width devices while providing extra gap material for protection from lower shield-to-lead shorting.
    • 本发明提供一种具有下屏蔽基座的薄膜读取头,其具有相邻的较低额外间隙层。 基座可以由下屏蔽层形成,其中较低的额外间隙层插入下屏蔽层内,使得下部额外间隙层和基座的顶表面大体上是平面的。 这允许沉积大致平坦的下间隙和传感器层。 传感器元件可以使用双层抗蚀剂结构限定在大体上平坦的表面上。 传感器层的大体上平坦的表面抑制抗蚀剂聚集,否则会降低抗蚀剂结构和传感器元件形成。 在一个典型的实施例中,本发明的读头可以具有自旋阀型传感器元件,其具有电耦合到传感器元件的引线,在传感器元件和上屏蔽层之间延伸的上间隙层,以及上部额外间隙层 设置在引线的至少一部分和上屏蔽层之间。 此外,读取头通常体现在具有合并的读/写头组件的数据存储和检索装置中。 降低表面形貌可以更好地控制抗蚀剂沉积和图案化。 因此,可以在传感器层上形成较小的,更坚固的抗蚀剂结构,以限定较小的轨道宽度传感器元件。这允许制造减小的轨道宽度装置,同时提供额外的间隙材料以防止较低的屏蔽 - 导线短路。
    • 7. 发明授权
    • Method and system for providing edge-junction TMR utilizing a hard magnet as a pinned layer
    • 提供利用硬磁体作为被钉扎层的边缘连接TMR的方法和系统
    • US06515573B1
    • 2003-02-04
    • US09596798
    • 2000-06-19
    • Zi-Wen DongZhupei ShiQunwen Leng
    • Zi-Wen DongZhupei ShiQunwen Leng
    • H01L4300
    • B82Y25/00B82Y10/00G01R33/093G11B5/313G11B5/3903G11B5/3909G11B2005/3996H01F10/3268H01L43/08
    • A method and system for providing a magnetoresistive sensor for reading data from a recording media is disclosed. The method and system include providing at least one barrier layer and a free layer having at least one edge. The at least one edge of the free layer is adjacent to the at least one barrier layer. The free layer is ferromagnetic and has a low coercivity. The method and system also include providing at least one hard magnetic layer. The at least one hard magnetic layer has a coercivity greater than the free layer coercivity. The at least one barrier layer is disposed between the at least one hard magnetic layer and the free layer. The at least one barrier layer is sufficiently thin to allow tunneling of charge carriers between the at least one hard magnetic layer and the free layer.
    • 公开了一种用于提供用于从记录介质读取数据的磁阻传感器的方法和系统。 该方法和系统包括提供至少一个阻挡层和具有至少一个边缘的自由层。 自由层的至少一个边缘与至少一个阻挡层相邻。 自由层是铁磁性的并且具有低的矫顽力。 该方法和系统还包括提供至少一个硬磁性层。 至少一个硬磁性层具有大于自由层矫顽力的矫顽力。 所述至少一个阻挡层设置在所述至少一个硬磁性层和所述自由层之间。 至少一个阻挡层足够薄以允许电荷载体在至少一个硬磁性层和自由层之间隧穿。
    • 8. 发明授权
    • Inductive write head having high magnetic moment poles and low magnetic moment thin layer in the back gap, and methods for making
    • 在后隙中具有高磁矩极和低磁矩薄层的感应写头及其制造方法
    • US06989962B1
    • 2006-01-24
    • US10373564
    • 2003-02-24
    • Zi-Wen DongJames WongRon Barr
    • Zi-Wen DongJames WongRon Barr
    • G11B5/127
    • G11B5/31
    • The present invention provides a write element for use in magnetic data recording system such as a computer disk drive. The write head utilizes the advantageous properties of high magnetic moments while overcoming the corrosion problems engendered by such materials. The write element includes a magnetic yoke constructed of first and second magnetic poles joined to one another at a back gap. While the majority of the poles are constructed of a high magnetic moment material a layer of relatively low magnetic moment material is provided on the first pole at the back gap portion of the first pole. The relatively low magnetic moment material prevents corrosion of the first pole during subsequent manufacturing of the write head. An electrically conductive coil passes through the magnetic yoke and is insulated there from. By passing an electrical current through the electrical coil, a magnetic flux is generated in the yoke. This magnetic flux then generates a magnetic fringing field in at a write gap of the yoke. The fringing field imparts magnetic data onto a recording medium passing thereby.
    • 本发明提供一种用于诸如计算机磁盘驱动器的磁数据记录系统中的写元件。 写磁头利用高磁矩的有利特性,同时克服这些材料产生的腐蚀问题。 写元件包括由在后间隙彼此连接的第一和第二磁极构成的磁轭。 虽然大多数极由高磁矩材料构成,但是在第一极的后间隙部分的第一极上提供了一层相对低的磁矩材料。 相对低的磁矩材料防止在后续制造写头期间第一极的腐蚀。 导电线圈通过磁轭并与之绝缘。 通过使电流通过电线圈,在磁轭中产生磁通量。 该磁通量随后在磁轭的写入间隙处产生磁边缘场。 边缘场将磁数据传送到通过的记录介质上。
    • 10. 发明授权
    • Data storage and retrieval apparatus with thin film read head having planarized extra gap and shield layers and method of fabrication thereof
    • 具有平坦化的多余间隙和屏蔽层的薄膜读取头的数据存储和取回装置及其制造方法
    • US06496334B1
    • 2002-12-17
    • US09579663
    • 2000-05-26
    • Song PangLijun TongZi-Wen DongKevin LinJoyce Hsiang
    • Song PangLijun TongZi-Wen DongKevin LinJoyce Hsiang
    • G11B539
    • B82Y25/00B82Y10/00G11B5/11G11B5/3146G11B5/3909G11B5/3912G11B5/398G11B2005/3996
    • In at least one embodiment, the apparatus of the invention is a read sensor comprising a shield, a sensor element, an extra shield between the shield and the sensor element, an extra gap between the shield and the sensor and adjacent the extra shield, and a gap layer between the sensor element and the extra shield. The sensor element is positioned in a sensor layer. With the extra shield adjacent to the sensor element and separated by only the relatively thin gap layer, high areal recording density and excellent instability of the sensor element is obtained. At the same time, by fabricating the extra shield to be not significantly wider than the sensor element, the potential for shorting is minimized by placing both the gap and the thicker extra gap between the sensor lead elements and the shield. In at least one embodiment, the method of the invention is for fabricating a read sensor and comprises depositing an extra gap layer onto a shield, removing a portion of the extra gap layer to form a cavity, depositing an extra shield into the cavity, planarizing the extra gap and the extra shield, depositing a gap layer onto the extra gap and the extra shield, and depositing a sensor element onto the gap layer and adjacent to the extra shield.
    • 在至少一个实施例中,本发明的装置是一种读取传感器,其包括屏蔽件,传感器元件,屏蔽件和传感器元件之间的额外的屏蔽层,屏蔽件和传感器之间的额外间隙,并且与附加屏蔽件相邻,以及 传感器元件和额外屏蔽之间的间隙层。 传感器元件位于传感器层中。 利用与传感器元件相邻并且仅由相对薄的间隙层隔开的附加屏蔽件,获得传感器元件的高面积记录密度和优异的不稳定性。 同时,通过将额外的屏蔽制造成不比传感器元件明显更宽,通过在传感器引线元件和屏蔽之间放置间隙和更厚的额外间隙,可以使短路的可能性最小化。 在至少一个实施例中,本发明的方法用于制造读取传感器,并且包括在屏蔽上沉积额外的间隙层,去除一部分额外的间隙层以形成空腔,向腔内沉积额外的屏蔽物,平坦化 额外的间隙和额外的屏蔽,将间隙层沉积到额外的间隙和额外的屏蔽上,以及将传感器元件沉积到间隙层上并与额外屏蔽件相邻。