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    • 3. 发明授权
    • Method and system for magnetic recording media
    • 磁记录介质的方法和系统
    • US08187452B2
    • 2012-05-29
    • US12431705
    • 2009-04-28
    • Steven C. RiemerIbro TabakovicJie GongHieu T. LamMark T. KiefMark H. OstrowskiJiaoming Qiu
    • Steven C. RiemerIbro TabakovicJie GongHieu T. LamMark T. KiefMark H. OstrowskiJiaoming Qiu
    • B23H11/00
    • C25F3/02B82Y10/00G11B5/743G11B5/82G11B5/855
    • A patterned magnetic recording media and method thereof is provided. A recording layer comprises a continuous surface of more-noble elements and less-noble elements, such as CoXYZ, wherein X can be Pt, Pd, Ru, Rh, Ir, Os, or Au, wherein Y can be null or Cr, and wherein Z can be null, Cu, Ta, Ti, O, B, Ag, or TiO2. The recording layer is masked, shielding areas for recording domains and exposing areas between the recording domains. A voltage bias establishes the substrate as an anode in the presence of Pt cathode, in an electrolyte bath. Ions of the less-noble element are anodically removed predominantly from the exposed areas of the recording layer for a controlled time. The controlled time minimizes oxidation of the nobler element and reduces undercutting of the recording domains. The article produced can have separating areas with surfaces substantially formed of the more-noble element.
    • 提供了一种图案化的磁记录介质及其方法。 记录层包括更贵族元素和较低贵族元素如CoXYZ的连续表面,其中X可以是Pt,Pd,Ru,Rh,Ir,Os或Au,其中Y可以是无效或Cr,以及 其中Z可以为零,Cu,Ta,Ti,O,B,Ag或TiO2。 屏蔽记录层,用于记录域的屏蔽区域和在记录域之间的曝光区域。 在Pt阴极的存在下,在电解质浴中,电压偏压建立了作为阳极的衬底。 较低贵族元素的离子主要从记录层的曝光区域阳极移除一段时间。 受控时间最小化了贵族元素的氧化并减少了记录域的底切。 所制造的制品可以具有基本上由更贵族元素形成的表面的分离区域。
    • 7. 发明申请
    • POLE FOR MAGNETIC RECORDING
    • 磁记录
    • US20130010387A1
    • 2013-01-10
    • US13602915
    • 2012-09-04
    • XiaoMin YangShuaigang XiaoJie GongMichael Seigler
    • XiaoMin YangShuaigang XiaoJie GongMichael Seigler
    • G11B5/127
    • G11B5/3163C25D5/10C25D5/14G11B5/1278G11B5/3116Y10T29/49021
    • A method for forming a magnetic write pole with a trapezoidal cross-section is described. The method consists of first forming a magnetic seedlayer on a base followed by depositing a removable material layer on the seedlayer, and then a resist layer on the removable material layer. A trench is then formed in the resist, and the resist is heated to cause the cross-sectional profile of the trench to assume a trapezoidal shape. The resist is then capped with another resist layer and further heated to cause the width of the trapezoidal trench to become narrower. The cap layer and removable material layer at the bottom of the trench are then removed and the trench filled with magnetic material by electroplating. The resist and seedlayer external to the trench are finally removed to form a write pole with a trapezoidal cross-section.
    • 描述了形成具有梯形截面的磁性写入极的方法。 该方法包括首先在基底上形成磁性种子层,然后在种子层上沉积可去除的材料层,然后在可移除材料层上形成抗蚀剂层。 然后在抗蚀剂中形成沟槽,并且加热抗蚀剂以使沟槽的横截面轮廓呈现梯形。 然后将抗蚀剂用另一抗蚀剂层封盖,并进一步加热,使梯形沟槽的宽度变窄。 然后去除沟槽底部的覆盖层和可移除材料层,并通过电镀填充磁性材料的沟槽。 最后去除沟槽外部的抗蚀剂和籽晶层以形成具有梯形横截面的写入极。
    • 8. 发明申请
    • FABRICATION OF TRAPEZOIDAL POLE FOR MAGNETIC RECORDING
    • 用于磁记录的铁皮石的制造
    • US20090279206A1
    • 2009-11-12
    • US12116798
    • 2008-05-07
    • XiaoMin YangShuaigang XiaoJie GongMichael Seigler
    • XiaoMin YangShuaigang XiaoJie GongMichael Seigler
    • G11B5/127C25D5/02
    • G11B5/3163C25D5/10C25D5/14G11B5/1278G11B5/3116Y10T29/49021
    • A method for forming a magnetic write pole with a trapezoidal cross-section is described. The method consists of first forming a magnetic seedlayer on a base followed by depositing a removable material layer on the seedlayer, and then a resist layer on the removable material layer. A trench is then formed in the resist, and the resist is heated to cause the cross-sectional profile of the trench to assume a trapezoidal shape. The resist is then capped with another resist layer and further heated to cause the width of the trapezoidal trench to become narrower. The cap layer and removable material layer at the bottom of the trench are then removed and the trench filled with magnetic material by electroplating. The resist and seedlayer external to the trench are finally removed to form a write pole with a trapezoidal cross-section.
    • 描述了形成具有梯形截面的磁性写入极的方法。 该方法包括首先在基底上形成磁性种子层,然后在种子层上沉积可去除的材料层,然后在可移除材料层上形成抗蚀剂层。 然后在抗蚀剂中形成沟槽,并且加热抗蚀剂以使沟槽的横截面轮廓呈现梯形。 然后将抗蚀剂用另一抗蚀剂层封盖,并进一步加热,使梯形沟槽的宽度变窄。 然后去除沟槽底部的覆盖层和可移除材料层,并通过电镀填充磁性材料的沟槽。 最后去除沟槽外部的抗蚀剂和籽晶层以形成具有梯形横截面的写入极。
    • 9. 发明授权
    • Method and apparatus for characterizing static and dynamic operation of
an architectural system
    • 表征建筑系统的静态和动态操作的方法和装置
    • US5907698A
    • 1999-05-25
    • US805099
    • 1997-02-24
    • Kayhan KucukcakarChih-Tung ChenJie GongThomas E. Tkacik
    • Kayhan KucukcakarChih-Tung ChenJie GongThomas E. Tkacik
    • G06F17/50
    • G06F17/5045
    • A method (30) and apparatus (300) for characterizing the operation of an architectural system designed through a plurality of design tasks (102-112). The design tasks are associated with architectural design rules (114-124) that compare a mapping of the system to a set of rules which are indicative of an error-free system. Objects in the mapping that do not conform to the architectural rules are identified and can be displayed at multiple architectural levels through one or more editors (26-28) and modified without leaving the editors. The system is dynamically characterized by annotating an RTL component (step 153) and simulating the system over a range of simulation cycles. The annotated component (130) monitors states of the system for storing in an analysis database (24). States at selectable simulation cycles are displayed in different orders and at multiple architectural levels.
    • 一种用于表征通过多个设计任务(102-112)设计的建筑系统的操作的方法(30)和装置(300)。 设计任务与架构设计规则(114-124)相关联,该规则将系统的映射与指示无错系统的一组规则进行比较。 标识不符合架构规则的映射中的对象,并且可以通过一个或多个编辑器(26-28)在多个架构级别显示,并在不离开编辑器的情况下进行修改。 该系统通过注释RTL组件(步骤153)并在一系列模拟循环中模拟系统来动态地表征。 注释组件(130)监视用于存储在分析数据库(24)中的系统的状态。 可选择的仿真周期的状态以不同的顺序和多个架构级别显示。