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    • 3. 发明授权
    • Surface-spintronics device
    • 表面自旋电子器件
    • US07432573B2
    • 2008-10-07
    • US10561616
    • 2004-06-23
    • Hideaki KasaiHiroshi NakanishiTomoya Kishi
    • Hideaki KasaiHiroshi NakanishiTomoya Kishi
    • H01L29/82
    • H01L43/08B82Y25/00G11C11/16H01F10/007
    • A surface-spintronic device operating on a novel principles of operations may be implemented as a spin conducting, a spin switching or a spin memory device. It includes a magnetic atom thin film (13) layered on a surface of a solid crystal (12) and a drain and a source electrodes (14)and (15) disposed at two locations on the magnetic atom thin film, respectively, whereby a spin splitting surface electronic state band formed in a system comprising said solid crystal(12) surface and said magnetic atom thin film (13) is utilized to obtain a spin polarized current flow. With electrons spin-polarized in a particular direction injected from the source electrode (15), controlling the direction of magnetization of the magnetic atom thin film (13) allows switching on and off the conduction of such injected electrons therethrough. Also, with the use of the magnetization holding function of the magnetic atom thin film (13), it is possible to realize a spin memory device that can operate to write information on controlling the direction of magnetization of the magnetic atom thin film (13) and that can operate to read information on detecting the electrodes (15, 14).
    • 以新颖的操作原理操作的表面自旋电子器件可以被实现为自旋导通,自旋切换或自旋存储器件。 它包括分别在固体晶体(12)的表面上分层的磁性原子薄膜(13)和设置在磁性原子薄膜上的两个位置处的漏极和源极(14)和(15),由此 利用在包括所述固体晶体(12)表面和所述磁性原子薄膜(13)的系统中形成的旋转分裂表面电子状态带来获得自旋极化电流。 利用从源电极(15)注入的特定方向自旋极化的电子,控制磁性原子薄膜(13)的磁化方向允许这种注入的电子的导通和导通。 此外,通过使用磁性原子薄膜(13)的磁化保持功能,可以实现能够操作以写入关于控制磁性原子薄膜(13)的磁化方向的信息的自旋存储装置, 并且可以操作以读取关于检测电极(15,14)的信息。
    • 5. 发明申请
    • Surface-spintronics device
    • 表面自旋电子器件
    • US20060186433A1
    • 2006-08-24
    • US10561616
    • 2004-06-23
    • Hideaki KasaiHiroshi NakanishiTomoya Kishi
    • Hideaki KasaiHiroshi NakanishiTomoya Kishi
    • H01L29/74
    • H01L43/08B82Y25/00G11C11/16H01F10/007
    • A surface-spintronic device operating on a novel principles of operations may be implemented as a spin conducting, a spin switching or a spin memory device. It includes a magnetic atom thin film (13) layered on a surface of a solid crystal (12) and a drain and a source electrodes (14) and (15) disposed at two locations on the magnetic atom thin film, respectively, whereby a spin splitting surface electronic state band formed in a system comprising said solid crystal (12) surface and said magnetic atom thin film (13) is utilized to obtain a spin polarized current flow. With electrons spin-polarized in a particular direction injected from the source electrode (15), controlling the direction of magnetization of the magnetic atom thin film (13) allows switching on and off the conduction of such injected electrons therethrough. Also, with the use of the magnetization holding function of the magnetic atom thin film (13), it is possible to realize a spin memory device that can operate to write information on controlling the direction of magnetization of the magnetic atom thin film (13) and that can operate to read information on detecting the state of conduction or nonconduction between the source and drain electrodes (15, 14).
    • 以新颖的操作原理操作的表面自旋电子器件可以被实现为自旋导通,自旋切换或自旋存储器件。 它包括分别在固体晶体(12)的表面上分层的磁性原子薄膜(13)和设置在磁性原子薄膜上的两个位置处的漏极和源极(14)和(15),由此 利用在包括所述固体晶体(12)表面和所述磁性原子薄膜(13)的系统中形成的旋转分裂表面电子状态带来获得自旋极化电流。 利用从源电极(15)注入的特定方向自旋极化的电子,控制磁性原子薄膜(13)的磁化方向允许这种注入的电子的导通和导通。 此外,通过使用磁性原子薄膜(13)的磁化保持功能,可以实现能够操作以写入关于控制磁性原子薄膜(13)的磁化方向的信息的自旋存储装置, 并且可以操作以读取关于检测源极和漏极(15,14)之间的导通或非导通状态的信息。
    • 6. 发明授权
    • Process for producing toners for use in electrophotography
    • 用于生产用于电子照相术的调色剂的方法
    • US4746590A
    • 1988-05-24
    • US945553
    • 1986-12-23
    • Hideaki KasaiMitsugu Fujioka
    • Hideaki KasaiMitsugu Fujioka
    • G03G9/08G03G9/09
    • G03G9/0906G03G9/0804
    • A process for producing toners for use in electrophotography which comprises: dyeing resin particles which have a predetermined particle size with a dye in an aqueous medium in such amounts that the weight ratio of the medium to the resin particle is not less than about 5 in the presence of silica powder in an amount of up to 10 wt. % based on the weight of the resin at temperatures of not less than the softening point of the resin but not more than temperatures higher than the softening point about 40.degree. C. under vigorous stirring. Water-insoluble dyes are particularly preferred.The resultant toner is composed of particles of resin dyed fast and deeply, and is usable as it is as toners in electrophotography without further coloring of the particle.
    • 一种用于生产用于电子照相术的调色剂的方法,其包括:在水性介质中用染料染色具有预定粒径的树脂颗粒,使得介质与树脂颗粒的重量比不小于约5 二氧化硅粉末的存在量高达10wt。 基于树脂的重量在不低于树脂的软化点的温度下,但在剧烈搅拌下不高于软化点温度约40℃的温度。 水不溶性染料是特别优选的。 所得到的调色剂由快速且深层地染色的树脂颗粒组成,并且可以直接用作电子照相中的调色剂而不进一步着色颗粒。