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    • 2. 发明授权
    • Magnetic head with improved supporter for perpendicular magnetization
recording
    • 磁头具有改进的垂直磁化记录支持
    • US4796134A
    • 1989-01-03
    • US127538
    • 1987-11-30
    • Yoshio WatanabeYasuhiko NakayamaNobuaki FuruyaHiroshi Miyama
    • Yoshio WatanabeYasuhiko NakayamaNobuaki FuruyaHiroshi Miyama
    • G11B5/127G11B5/31G11B5/187
    • G11B5/3106G11B5/1278
    • In a magnetic head of perpendicular magnetization type having main and sub magnetic poles arranged at both sides of a recording medium, a nonmagnetic supporter holding a high permeability magnetic thin layer of the main magnetic pole is formed by a polycrystalline sintered body substantially composed of titanium carbide and alumina. This polycrystalline sintered product well matches with a recording medium having a cobalt-chromium alloy layer so that the recording medium does not wear for a long time of use, and therefore, so that the contact surface of the main magnetic pole is hardly damaged. The same sintered body may also be used for the sub magnetic pole arranged to be in contact with the recording medium. Some structural improvements are also provided so that undesirable influence due to an adhesive layer adjacent to the magnetic thin layer is removed. One or more additional thin layers may be provided for reducing crosstalk between adjacent tracks. A magnetically shielding block is provided to prevent undesirable influence caused by an external magnetic field.
    • 在具有设置在记录介质两侧的主磁极和副磁极的垂直磁化型的磁头中,保持主磁极的高磁导率磁性薄层的非磁性载体由基本上由碳化钛组成的多晶烧结体形成 和氧化铝。 这种多晶烧结产品与具有钴 - 铬合金层的记录介质良好地匹配,使得记录介质长时间不磨损,因此主磁极的接触表面几乎不被损坏。 相同的烧结体也可以用于与记录介质接触的副磁极。 还提供了一些结构改进,以便消除由于与磁性薄层相邻的粘合剂层引起的不期望的影响。 可以提供一个或多个附加的薄层以减少相邻轨道之间的串扰。 提供磁屏蔽块以防止由外部磁场引起的不期望的影响。
    • 4. 发明授权
    • Magnetic head with improved supporter for perpendicular magnetization
recording
    • 磁头具有改进的垂直磁化记录支持
    • US4745509A
    • 1988-05-17
    • US409895
    • 1982-08-20
    • Yoshio WatanabeYasuhiko NakayamaNobuaki FuruyaHiroshi Miyama
    • Yoshio WatanabeYasuhiko NakayamaNobuaki FuruyaHiroshi Miyama
    • G11B5/127G11B5/31G11B5/187
    • G11B5/3106G11B5/1278
    • In a magnetic head of perpendicular magnetization type having main and sub magnetic poles arranged at both sides of a recording medium, a nonmagnetic supporter holding a high permeability magnetic thin layer of the main magnetic pole is formed by a polycrystalline sintered body substantially composed of titanium carbide and alumina. This polycrystalline sintered product well matches with a recording medium having a cobalt-chromium alloy layer so that the recording medium does not wear for a long time of use, and therefore, so that the contact surface of the main magnetic pole is hardly damaged. The same sintered body may also be used for the sub magnetic pole arranged to be in contact with the recording medium. Some structural improvements are also provided so that undesirable influence due to an adhesive layer adjacent to the magnetic thin layer is removed. One or more additional thin layers may be provided for reducing crosstalk between adjacent tracks. A magnetically shielding block is provided to prevent undesirable influence caused by an external magnetic field.
    • 在具有设置在记录介质两侧的主磁极和副磁极的垂直磁化型的磁头中,保持主磁极的高磁导率磁性薄层的非磁性载体由基本上由碳化钛组成的多晶烧结体形成 和氧化铝。 该多晶烧结体与具有钴 - 铬合金层的记录介质良好地匹配,使得记录介质长时间不磨损,因此,主磁极的接触表面几乎不被损坏。 相同的烧结体也可以用于与记录介质接触的副磁极。 还提供了一些结构改进,以便消除由于与磁性薄层相邻的粘合剂层引起的不期望的影响。 可以提供一个或多个附加的薄层以减少相邻轨道之间的串扰。 提供磁屏蔽块以防止由外部磁场引起的不期望的影响。
    • 6. 发明授权
    • Apparatus and method for laser processing
    • 用于激光加工的装置和方法
    • US06504652B1
    • 2003-01-07
    • US09690747
    • 2000-10-18
    • Koki IchihashiHidehiko KarasakiNobuaki Furuya
    • Koki IchihashiHidehiko KarasakiNobuaki Furuya
    • G02B300
    • G02B27/0927G02B27/09G02B27/0955G03F7/70183G03F7/70191
    • A CO2 laser beam 12 is converted into a beam of uniform intensity at the position of a phase matching element 15 by an intensity converting element 14 and the phase matching element 15. Then, the uniform intensity beam irradiates a mask 17 containing an aperture variable in size via a variable-magnification projecting optical system 16. At the time of irradiation, the laser beam at the position of the phase matching element 15 is projected onto the mask 17 at a magnification factor most suited to the size of the aperture formed in the mask 17. Further, the pattern of the mask 17 is projected onto a workpiece 19. Thus, a uniform intensity distribution of the laser beam is obtained on the workpiece and high quality laser processing becomes possible.
    • CO2激光束12通过强度转换元件14和相位匹配元件15在相位匹配元件15的位置处被转换成均匀强度的光束。然后,均匀强度光束照射包含孔径变量的掩模17 通过可变放大倍率投影光学系统16的尺寸。在照射时,相位匹配元件15的位置处的激光束以最适合于形成在孔17中的孔的尺寸的放大倍数投影到掩模17上 掩模17.此外,掩模17的图案被投射到工件19上。因此,在工件上获得激光束的均匀的强度分布,并且可以进行高质量的激光加工。
    • 8. 发明授权
    • Discharge-pumped gas laser with independent preionizing circuit
    • 排气泵气体激光器具有独立的前置电路
    • US5293390A
    • 1994-03-08
    • US873854
    • 1992-04-27
    • Nobuaki FuruyaTakuhiro OnoNaoya HoriuchiKeiichiro YamanakaTakeo MiyataKenichi Takahata
    • Nobuaki FuruyaTakuhiro OnoNaoya HoriuchiKeiichiro YamanakaTakeo MiyataKenichi Takahata
    • H01S3/0975H01S3/0971H01S3/0977H01S3/00
    • H01S3/09713
    • A discharge-pumped gas laser, typically a discharge-pumped excimer laser, includes a main discharge circuit for producing an electric discharge in a laser gas to excite the laser gas for laser emission. The main discharge circuit comprises a first electric circuit having a thyratron, a charging circuit including a charging capacitor for storing an electric energy to operate the thyratron, and a discharging circuit including a pair of main discharge electrodes and a peaking capacitor for storing an electric energy to cause a main discharge in the laser gas between the main discharge electrodes. The laser gas is preionized by preionizers having a plurality of preionizing electrodes which produce an electric discharge to preionize the laser gas. The preionizing electrodes are connected in a second circuit which has a plurality of distributing capacitors for storing an electric energy to enable the preionizing electrodes to preionize the laser gas and supply substantially uniform electric currents to the preionizing electrodes. The distributing capacitors have substantially the same capacitances. The first and second electric circuits are substantially independent of each other.
    • 放电泵浦气体激光器,通常为排出泵浦准分子激光器,包括用于在激光气体中产生放电以激发用于激光发射的激光气体的主放电电路。 主放电电路包括具有闸流管的第一电路,充电电路,其包括用于存储电能以操作闸流管的充电电容器,以及包括一对主放电电极和用于存储电能的峰值电容器的放电电路 以在主放电电极之间的激光气体中引起主放电。 激光气体由具有多个预除电极的前置放电器预先去除,该多个前置电极产生放电以预激化激光气体。 前置电极连接在具有多个分配电容器的第二电路中,该多个分配电容器用于存储电能,以使前置电极能够预激化激光气体,并向前置电极提供基本均匀的电流。 分配电容器具有基本上相同的电容。 第一和第二电路基本上彼此独立。