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    • 4. 发明申请
    • MICROMECHANICAL COMPONENT AND PRODUCTION METHOD FOR A MICROMECHANICAL COMPONENT
    • 微生物组分的微生物组分和生产方法
    • US20120133242A1
    • 2012-05-31
    • US13320712
    • 2010-05-18
    • Frederic Njikam NjimonzieJoerg MuchowZoltan LestyanWolfram Schock
    • Frederic Njikam NjimonzieJoerg MuchowZoltan LestyanWolfram Schock
    • H02N1/00H05K13/00
    • G02B26/0841B81B3/0021B81B2201/033B81B2201/042Y10T29/49002
    • A micromechanical component has an outer stator electrode component and an outer actuator electrode component which is connected to a holder via at least one outer spring, an adjustable element being adjustable about a first rotation axis by application of a first voltage between the outer actuator electrode component and the outer stator electrode component, and having an inner stator electrode component and an inner actuator electrode component having a first web with at least one electrode finger disposed thereon, the adjustable element being adjustable about a second rotation axis by application of a second voltage between the at least one electrode finger of the inner actuator electrode component and the inner stator electrode component, and the inner actuator electrode component being connected to the outer actuator electrode component via an intermediate spring which is oriented along the second rotation axis. Also described is a production method for a micromechanical component.
    • 微机械部件具有外部定子电极部件和外部致动器电极部件,其经由至少一个外部弹簧连接到保持器,可调节元件可围绕第一旋转轴线调节,通过在外部致动器电极部件 和外部定子电极部件,并且具有内部定子电极部件和内部致动器电极部件,所述内部致动器电极部件具有设置在其上的至少一个电极指的第一网状物,所述可调节元件可围绕第二旋转轴线调节, 内部致动器电极部件的至少一个电极指和内部定子电极部件,内部致动器电极部件通过沿着第二旋转轴线取向的中间弹簧连接到外部致动器电极部件。 还描述了一种用于微机械部件的制造方法。
    • 5. 发明授权
    • Gas laser with longitudinal flow
    • 气体激光与长期流动
    • US5200971A
    • 1993-04-06
    • US824117
    • 1992-01-23
    • Eberhard WildermuthHartwig Von BuelowWolfram SchockJoerg PorathKlaus Schanz
    • Eberhard WildermuthHartwig Von BuelowWolfram SchockJoerg PorathKlaus Schanz
    • H01S3/036H01S3/041H01S3/07H01S3/0975
    • H01S3/041H01S3/076H01S3/0975
    • In order to improve a high-frequency excited gas laser with longitudinal flow, comprising a discharge channel having laser gas flowing therethrough in a direction of flow and high-frequency electrodes arranged on both sides of the discharge channel for generating a high-frequency discharge transversely to the direction of flow, such that a high output can be achieved with this laser in a manner which is, constructionally, as simple as possible and that its design is, at the same time, as compact as possible, it is suggested that the discharge channel comprise a plurality of channel elements, the channel axes of which are aligned parallel to one another in the direction of flow, that the channel elements be arranged beside or next to one another in a direction of installation transverse to the direction of flow and that the channel elements have a cross section having a greater extension in a first cross direction at right angles to the direction of flow than in a second cross direction extending at right angles to the first cross direction and to the direction of flow.
    • 为了改善具有纵向流动的高频激发气体激光器,包括具有沿着流动方向流过其中的激光气体的排出通道和布置在放电通道两侧的高频电极,用于横向产生高频放电 使得可以以这种方式在该结构上尽可能简单的方式使该激光器实现高输出,并且其设计同时尽可能紧凑,这表明, 排放通道包括多个通道元件,其通道轴线在流动方向上彼此平行地对齐,通道元件沿横向于流动方向的安装方向彼此相邻或相邻地布置,并且 通道元件具有在与第二横向方向成直角的第一横向上具有较大延伸的横截面 与第一横向方向和流动方向成直角延伸。
    • 8. 发明授权
    • Gas discharge structure
    • 排气结构
    • US5528619A
    • 1996-06-18
    • US436757
    • 1995-05-08
    • Hansjoerg BochumRolf NowackHans OpowerWolfram SchockKlaus Wessel
    • Hansjoerg BochumRolf NowackHans OpowerWolfram SchockKlaus Wessel
    • H01S3/03H01S3/0975H05H1/46H01S3/097
    • H01S3/0315H01S3/0975H05H1/46
    • In order to produce a gas discharge structure for two-dimensionally extending gas discharges comprising a pair of electrodes including a first and a second electrode which have mutually facing electrode surfaces, a gas discharge space arranged between the electrode surfaces with a plasma gas provided therein and a high frequency source with which a current can be fed into the pair of electrodes for producing a plasma between the first and the second electrode, in such a way that wavelength dependent modulations of the field strength substantially no longer occur in the gas discharge space, it be proposed that, the electrode surface of the first electrode is divided into two partial electrode surfaces that are located adjacent to one another in this electrode surface but are electrically separated from one another, that the partial electrode surfaces have mutually facing edge regions which extend at a defined distance from one another, that the partial electrode surfaces be connected to two terminals of the high frequency source which are at different potentials in such a way that a surface current flows over one of the edge regions to and then over the other one and that the second electrode be at an intermediate potential which lies between that of the two partial electrodes.
    • 为了产生用于二维延伸的气体放电的气体放电结构,包括一对电极,其包括具有相互面对的电极表面的第一和第二电极,设置在电极表面之间的气体放电空间,其中设置有等离子体气体, 电流可以被馈送到一对电极中以在第一和第二电极之间产生等离子体的高频源,使得在气体放电空间中基本上不再发生场强的波长依赖性调制, 要提出的是,第一电极的电极表面被分成两个部分电极表面,这两个部分电极表面在该电极表面中彼此相邻设置,但是彼此电分离,部分电极表面具有相互面对的边缘区域, 在彼此限定的距离处,部分电极表面被连接到 高频源的两个端子处于不同的电位,使得表面电流流过其中一个边缘区域并且然后超过另一个边缘区域,并且第二电极处于位于 两个部分电极。