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    • 1. 发明授权
    • Preionization arrangement for a gas laser
    • 气体激光器的预处理装置
    • US06618422B2
    • 2003-09-09
    • US09863931
    • 2001-05-22
    • Igor BraginUlrich RebhanUwe StammDirk Basting
    • Igor BraginUlrich RebhanUwe StammDirk Basting
    • H01S300
    • G03F7/70025H01S3/0384H01S3/0385
    • A preionization device for a gas laser comprises an internal preionization electrode having a dielectric housing around it and an external preionization electrode displaced from the dielectric housing by a small gap. The dielectric housing includes two cylindrical regions of differing outer radii of curvature. An open end of the housing has a larger radius of curvature than the other end which is closed. The internal electrode connects to circuitry external to the discharge chamber via a conductive feedthrough which penetrates through the housing. The external circuitry prevents voltage oscillations caused by residual energy stored as capacitance in the dielectric housing. The external preionization electrode, which is connected electrically to one of the main discharge electrodes, is formed to shield the internal preionization electrode from the other main discharge electrode to prevent arcing therebetween. The external electrode is also formed to shield the outer gas volume and walls of the discharge chamber from the preionization unit. A semi-transparent external electrode prevents charged particles emanating from the main discharge area from settling on the housing and causing field distortion and discharge instabilities.
    • 用于气体激光器的预电离装置包括其周围具有介电壳体的内部预电离电极和通过小间隙从绝缘壳体移位的外部预电离电极。 介电壳体包括具有不同外部曲率半径的两个圆柱形区域。 外壳的开口端具有比封闭的另一端更大的曲率半径。 内部电极通过穿透壳体的导电馈通连接到放电室外部的电路。 外部电路防止由绝缘外壳中的电容存储的剩余能量引起的电压振荡。 与主放电电极之间电连接的外部预电离电极被形成为将内部预电离电极与另一个主放电电极屏蔽,以防止它们之间的电弧。 外部电极也形成为将外部气体体积和排出室的壁与预电离单元进行屏蔽。 半透明外部电极防止从主放电区域发出的带电粒子沉降在壳体上并导致场失真和放电不稳定。
    • 2. 发明授权
    • Preionization arrangement for gas laser
    • 气体激光器的预处理装置
    • US06650679B1
    • 2003-11-18
    • US09247887
    • 1999-02-10
    • Igor BraginUlrich RebhanUwe StammDirk Basting
    • Igor BraginUlrich RebhanUwe StammDirk Basting
    • H01S3097
    • G03F7/70025H01S3/0384H01S3/0385
    • A preionization device for a gas laser comprises an internal preionization electrode having a dielectric housing around it and an external preionization electrode displaced from the dielectric housing by a small gap. The dielectric housing includes two cylindrical regions of differing outer radii of curvature. An open end of the housing has a larger radius of curvature than the other end which is closed. The internal electrode connects to circuitry external to the discharge chamber via a conductive feedthrough which penetrates through the housing. The external circuitry prevents voltage oscillations caused by residual energy stored as capacitance in the dielectric housing. The external preionization electrode, which is connected electrically to one of the main discharge electrodes, is formed to shield the internal preionization electrode from the other main discharge electrode to prevent arcing therebetween. The external electrode is also formed to shield the outer gas volume and walls of the discharge chamber from the preionization unit. A semi-transparent external electrode prevents charged particles emanating from the main discharge area from settling on the housing and causing field distortion and discharge instabilities.
    • 用于气体激光器的预电离装置包括其周围具有介电壳体的内部预电离电极和通过小间隙从绝缘壳体移位的外部预电离电极。 介电壳体包括具有不同外部曲率半径的两个圆柱形区域。 外壳的开口端具有比封闭的另一端更大的曲率半径。 内部电极通过穿透壳体的导电馈通连接到放电室外部的电路。 外部电路防止由绝缘外壳中的电容存储的剩余能量引起的电压振荡。 与主放电电极之间电连接的外部预电离电极被形成为将内部预电离电极与另一个主放电电极屏蔽,以防止它们之间的电弧。 外部电极也形成为将外部气体体积和排出室的壁与预电离单元进行屏蔽。 半透明外部电极防止从主放电区域发出的带电粒子沉降在壳体上并导致场失真和放电不稳定。
    • 6. 发明授权
    • Discharge unit for a high repetition rate excimer or molecular fluorine laser
    • US06414978B1
    • 2002-07-02
    • US09826296
    • 2001-04-03
    • Igor BraginVadim BergerUwe StammUlrich Rebhan
    • Igor BraginVadim BergerUwe StammUlrich Rebhan
    • H01S322
    • A laser for an excimer or molecular fluorine laser includes an electrode chamber connected with a gas flow vessel and having a pair of main electrodes and a preionization unit each connected to a discharge circuit. A spoiler is provided within the electrode chamber and is shaped to provide a more uniform gas flow through the discharge area between the main electrodes, to shield one of the preionization units from one of the main electrodes, and to reflect acoustic waves generated in the discharge area into the gas flow vessel for absorption therein. A spoiler unit may include a pair of opposed spoiler elements on either side of the discharge area. One or both main electrodes includes a base portion and a center portion which may be a nipple protruding from the base portion. The center portion substantially carries the periodic discharge current such that the discharge width is and may be significantly less than the width of the base portion. The curvatures of both main electrodes may conform to the curvature of the gas flow through the discharge chamber to further improve aerodynamic performance. A plurality of low inductive conducting ribs are connected to the grounded main electrode and shaped to provide a more uniform flow of gases through openings defined between adjacent ribs.
    • 9. 发明授权
    • Optical materials testing method
    • 光学材料测试方法
    • US06587202B2
    • 2003-07-01
    • US09726871
    • 2000-11-30
    • Ulrich Rebhan
    • Ulrich Rebhan
    • G01N2100
    • G01N21/59G01N21/33
    • A method for testing a material block prior to forming the material block into one or more optical components for use with a sub-micron lithographic, high power, narrow bandwidth laser system having high wavelength stability includes the step of selecting a block of material having appropriate characteristic optical properties for the source laser system being used. The next step is to test the material block for absorption performance. Then, if the block exhibits a sufficient absorption performance, then one of more optical components such as one or more prisms, etalons, and/or windows, etc. are formed from the material block. Finally, the optical components formed from the block are inserted into a wavelength selection module of the resonator of the laser to participate in producing a high power, narrow bandwidth laser beam which may be used in sub-micron photolithographic applications.
    • 在将材料块形成用于具有高波长稳定性的亚微米光刻,高功率,窄带宽激光系统的一个或多个光学部件之前用于测试材料块的方法包括以下步骤:选择具有适当的材料块 使用的源激光系统的特性光学特性。 下一步是测试材料块的吸收性能。 然后,如果块具有足够的吸收性能,则从材料块形成更多的光学部件之一,例如一个或多个棱镜,标准具和/或窗户等。 最后,将从块形成的光学部件插入到激光器的谐振器的波长选择模块中,以参与产生可用于亚微米光刻应用的高功率窄带宽激光束。
    • 10. 发明授权
    • Laser ventilation system
    • 激光通风系统
    • US06414828B1
    • 2002-07-02
    • US09482182
    • 2000-01-12
    • Kay ZimmermanUlrich Rebhan
    • Kay ZimmermanUlrich Rebhan
    • H02H300
    • F24F7/00B23K26/1435B23K26/1438
    • A ventilation system for industrial laser systems is disclosed which can minimize the cooling air intake required during normal operation. Adequate ventilation is maintained even if the housing is opened. Various sensors monitor the condition of the cooling air and can increase the air intake if required for cooling or safety. Such a ventilation system is of particular advantage for excimer lasers in microlithography applications because the consumption of conditioned clean room air is controlled by the actual needs of the laser device.
    • 公开了用于工业激光系统的通风系统,其可以使正常操作期间所需的冷却空气进入最小化。 即使外壳打开,仍保持足够的通风。 各种传感器监测冷却空气的状况,如果冷却或安全需要,可以增加进气口。 这种通风系统对于微光刻应用中的准分子激光器是特别有利的,因为经过激光设备的实际需要来控制空调洁净室空气的消耗。