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    • 62. 发明授权
    • Thin film crystal growth by laser annealing
    • US06635932B2
    • 2003-10-21
    • US10213698
    • 2002-08-06
    • Costas P. GrigoropoulosMutsuko HatanoMing-Hong LeeSeung-Jae Moon
    • Costas P. GrigoropoulosMutsuko HatanoMing-Hong LeeSeung-Jae Moon
    • H01L2362
    • H01L21/02686H01L21/2026
    • A layer of material is transformed from a first state to a second state by the application of energy from an energy beam. For example, large direction- and location-controlled p-Si grain growth utilizes recrystallization of amorphous silicon from superpositioned laser irradiation. The superpositioned laser irradiation controls cooling and solidification processes that determine the resulting crystal structure. Specifically, a first laser beam of a first pulse duration is used to melt an amorphous silicon (a-Si) film and to create a temperature gradient. After an initial delay, a second laser beam with shorter pulse duration is superpositioned with the first laser beam. When a-Si is irradiated by the second laser beam, the area heated by the first laser beam becomes completely molten. Spontaneous nucleation is initiated in the supercooled liquid-Si when the liquid-Si temperature drops below the nucleation temperature. However, the central part of the liquid pool subjected to continued heating by the first laser beam cools down slowly. Grains nucleated in the periphery of the fully molten spot can therefore grow into the liquid-Si and extend in length until they collide at the center of the first laser beam spot. The first laser beam prolongs the molten Si phase and induces grain growth in a certain direction. The second laser beam triggers nucleation and controls grain location leading to subsequent lateral grain growth.
    • 63. 发明授权
    • Superconducting device including plural superconducting electrodes
formed on a normal conductor
    • 超导装置包括形成在正常导体上的多个超导电极
    • US5442195A
    • 1995-08-15
    • US136984
    • 1993-10-18
    • Kazuo SaitohToshikazu NishinoMutsuko Hatano
    • Kazuo SaitohToshikazu NishinoMutsuko Hatano
    • H01L39/22H01L27/18H01L39/24B05D5/12G11C11/44H01B12/00
    • H01L27/18Y10S505/832
    • A superconducting device may include a superconducting weak link equipped with plural superconducting devices that are used as input-output terminals formed on the same plane and at least one current source for applying current to at least one of these superconducting electrodes. A superconducting device suitable for high integration can be realized as it enables structuring of a superconducting weak link 1 equipped with plural superconducting electrodes 101, 102, 103 and 104 that can be used as input-output terminals and changing symmetry of superconducting electrode arrangement through the form of a normal conductor 201 which is forming a superconducting weak link. In addition, when this superconducting device is used as a quasi-particle injection type device, a superconducting device with plural superconducting electrodes that can be used for a gate electrode, drain electrode or control electrode can be realized. Further, a superconducting device equipped with new functions (e.g. motion as a neuron device) which are capable of high integration can be realized by utilizing these characteristics. Furthermore, being a proximity effect type, superconducting weak link has an advantage of realizing an ultra highspeed, low electricity consuming switching device.
    • 超导装置可以包括配备有多个超导装置的超导弱连接器,所述多个超导装置用作形成在同一平面上的输入 - 输出端子和用于向这些超导电极中的至少一个施加电流的至少一个电流源。 可以实现适用于高集成度的超导装置,因为它能够构成配备有可用作输入 - 输出端子的多个超导电极101,102,103和104的超导弱连接件1,并且通过所述超导电极装置改变超导电极装置的对称性 形成超导弱连接的正常导体201的形式。 此外,当该超导装置用作准粒子注入型装置时,可以实现具有可用于栅电极,漏电极或控制电极的多个超导电极的超导装置。 此外,可以通过利用这些特性来实现配备有能够高集成度的新功能(例如作为神经元装置的运动)的超导装置。 此外,作为接近效应型,超导弱连接具有实现超高速,低耗电开关器件的优点。
    • 65. 发明授权
    • Display device
    • 显示设备
    • US08242505B2
    • 2012-08-14
    • US12003462
    • 2007-12-26
    • Tetsufumi KawamuraTakeshi SatoMutsuko HatanoYoshiaki Toyota
    • Tetsufumi KawamuraTakeshi SatoMutsuko HatanoYoshiaki Toyota
    • H01L29/04H01L31/036
    • H01L27/127H01L27/12H01L27/1225H01L27/124H01L29/7869
    • A display device for improving an aperture ratio of the pixel is provided. In the display device, a transparent oxide layer, an insulating film, and a conductive layer are sequentially stacked on a pixel region on a substrate, the conductive layer has a gate electrode of a thin film transistor connected to a gate signal line, and a region of the transparent oxide layer other than at least a channel region portion directly below the gate electrode is converted into an electrically conductive region, and a source signal line, a source region portion of the thin film transistor connected to the source signal line, a pixel electrode, and a drain region portion of the thin film transistor connected to the pixel electrode are formed from the conductive region.
    • 提供了一种用于提高像素的开口率的显示装置。 在显示装置中,透明氧化物层,绝缘膜和导电层依次层叠在基板上的像素区域上,导电层具有与栅极信号线连接的薄膜晶体管的栅电极, 透明氧化物层的除了栅电极正下方的沟道区域以外的透明氧化物层的区域被转换为导电区域,源极信号线,连接到源极信号线的薄膜晶体管的源极区域部分 像素电极和连接到像素电极的薄膜晶体管的漏区部分由导电区域形成。
    • 69. 发明申请
    • DISPLAY DEVICE
    • 显示设备
    • US20090101895A1
    • 2009-04-23
    • US12253257
    • 2008-10-17
    • Tetsufumi KawamuraTakeshi SatoMutsuko Hatano
    • Tetsufumi KawamuraTakeshi SatoMutsuko Hatano
    • H01L27/088
    • H01L29/7869H01L27/1225H01L29/41733
    • A display device includes a pixel including: a gate line; a gate insulating film; a substrate; a data line; a pixel electrode; a semiconductor layer formed on the gate line and the gate insulating film; a protective film formed on the data line, the pixel electrode, and the semiconductor layer; and a thin film transistor. A portion of the gate line also serves as a gate electrode of the thin film transistor. A portion of the data line also serves as a drain electrode of the thin film transistor. A portion of the pixel electrode also serves as a source electrode of the thin film transistor. The semiconductor layer is formed of an oxide semiconductor layer. The oxide semiconductor layer is directly connected to the drain electrode and the source electrode, and the data line and the pixel electrode are formed of different conductive films.
    • 显示装置包括:像素,包括:栅极线; 栅极绝缘膜; 底物; 数据线 像素电极; 形成在栅极线和栅极绝缘膜上的半导体层; 形成在数据线上的保护膜,像素电极和半导体层; 和薄膜晶体管。 栅极线的一部分也用作薄膜晶体管的栅电极。 数据线的一部分也用作薄膜晶体管的漏电极。 像素电极的一部分也用作薄膜晶体管的源电极。 半导体层由氧化物半导体层形成。 氧化物半导体层直接连接到漏电极和源电极,数据线和像素电极由不同的导电膜形成。