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    • 2. 发明申请
    • LINE NARROWING MODULE
    • 线路延迟模块
    • WO2006060360A3
    • 2006-10-26
    • PCT/US2005043056
    • 2005-11-28
    • CYMER INCALGOTS MARTIN JBERGSTEDT ROBERT AGILLESPIE WALTER DKULGEYKO VLADIMIR APARTLO WILLIAM NRYLOV GERMAN ESANDSTROM RICHARD LSTRATE BRIAN DDYER TIMOTHY S
    • ALGOTS MARTIN JBERGSTEDT ROBERT AGILLESPIE WALTER DKULGEYKO VLADIMIR APARTLO WILLIAM NRYLOV GERMAN ESANDSTROM RICHARD LSTRATE BRIAN DDYER TIMOTHY S
    • H01S3/22
    • H01S3/1055G03F7/70025G03F7/70041H01S3/005H01S3/036H01S3/08H01S3/08004H01S3/08059H01S3/097H01S3/106H01S3/2251
    • A line narrowing method and module for a narrow band DUV high power high repetition rate gas discharge laser producing output laser light pulse beam pulses in bursts of pulses, the module having a nominal optical path are disclosed which may comprise: a dispersive center wavelength selection optic moveably mounted within an optical path of the line narrowing module, selecting at least one center wavelength for each pulse determined at least in part by the angle of incidence of the laser light pulse beam containing the respective pulse on the dispersive wavelength selection optic; a first tuning mechanism operative in part to select the angle of incidence of the laser light pulse beam containing the respective pulse upon the dispersive center wavelength selection optic, by selecting an angle of transmission of the laser light pulse beam containing the pulse toward the dispersive center wavelength selection optic; a second tuning mechanism operative in part to select the angle of incidence of the laser light pulse beam containing the respective pulse by changing the position of the dispersive center wavelength selection optic relative to the nominal optical path of the line narrowing module; wherein the second tuning mechanism coarsely selects a value for the center wavelength and the first tuning mechanism more finely selects the value for the center wavelength.
    • 一种用于窄带DUV大功率高重复率气体放电激光器的线窄化方法和模块,其产生具有标称光路的脉冲串中的输出激光束脉冲束脉冲,其可以包括:分散中心波长选择光学器件 可移动地安装在线路窄化模块的光路内,为至少部分地由分散波长选择光学器件上包含相应脉冲的激光束的入射角确定的每个脉冲选择至少一个中心波长; 第一调谐机构部分地通过选择包含脉冲朝向分散中心的激光束的透射角度来选择包含分散中心波长选择光学器件上的各个脉冲的激光束的入射角 波长选择光学; 第二调谐机构部分地通过改变色散中心波长选择光学器件相对于线条变窄模块的标称光路的位置来选择包含相应脉冲的激光束的入射角; 其中第二调谐机构粗略地选择中心波长的值,并且第一调谐机构更精细地选择中心波长的值。
    • 3. 发明申请
    • GAS DISCHARGE LASER CHAMBER IMPROVEMENTS
    • 气体放电激光室改进
    • WO2005104313A3
    • 2007-02-01
    • PCT/US2005007168
    • 2005-03-03
    • CYMER INCPARTLO WILLIAM NAMADA YOSHIHOCARMICHAEL JAMES ADYER TIMOTHY SGILLESPIE WALTER DMOOSMAN BRYAN GRETTIG CURTIS LSTRATE BRIAN DSTEIGER THOMAS DTRINTCHOUK FEDOR BUJAZDOWSKI RICHARD C
    • PARTLO WILLIAM NAMADA YOSHIHOCARMICHAEL JAMES ADYER TIMOTHY SGILLESPIE WALTER DMOOSMAN BRYAN GRETTIG CURTIS LSTRATE BRIAN DSTEIGER THOMAS DTRINTCHOUK FEDOR BUJAZDOWSKI RICHARD C
    • H01S3/22H01S3/03H01S3/036H01S3/038H01S3/041H01S3/097H01S3/0971H01S3/225
    • H01S3/036H01S3/0384H01S3/041H01S3/0971H01S3/225
    • A method and apparatus if disclosed which may comprise a high power high repetition rate gas discharge laser UV light source which may comprise: a gas discharge chamber comprising an interior wall comprising a vertical wall and an adjacent bottom wall; a gas circulation fan creating a gas flow path adjacent the interior vertical wall and the adjacent bottom wall; an in-chamber dust trap positioned a region of low gas flow, which may be along an interior wall and may comprise at least one meshed screen, e.g., a plurality of meshed screens, which may comprise at least two different gauge meshed screens. The dust trap may extend along the bottom interior wall of the chamber and/or a vertical portion of the interior wall. The dust trap may comprise a first meshed screen having a first gauge; a second meshed screen having a second gauge smaller than the first gauge; and the second meshed screen intermediate the first meshed screen and the interior wall. The chamber may comprise a plurality of dust collecting recesses in at least one of the vertical interior wall and the bottom wall of the chamber which may be selected from a group comprising a one-part recess and a multi-part recess, which may comprise two sections angled with respect to each other. The dust trap may comprise a pressure trap positioned between a portion of a main insulator and an interior wall of the chamber. The chamber may comprise a gas circulating fan comprising a cross-flow fan with a fan cutoff that may comprise a vortex control pocket. The chamber may comprise a preionization mechanism comprising a preionization tub containing a ground rod within an elongated opening in the preionization tube that may comprise a compliant member, an automatic preionization shut-off mechanism, a preionization onset control mechanism and/or a focusing element. The chamber may comprise an elongated baffle plate that may comprise a plurality of pyramidal structures including varying numbers of generally pyramidal elements and oriented in groups of varying numbers of generally pyramidal elements and oriented along and transverse to the longitudinal axis. Acoustic resonances within the chamber may also be reduced by introducing an artificial fitter into the timing of the laser discharges varying the inter-pulse period randomly or in a repeating pattern from pulse to pulse within a burst.
    • 如果公开的方法和装置,其可以包括高功率高重复率气体放电激光UV光源,其可以包括:气体放电室,其包括包括垂直壁和相邻底壁的内壁; 气体循环风扇,其产生邻近内部垂直壁和相邻底壁的气体流动路径; 室内除尘器定位了低气流区域,其可以沿着内壁并且可以包括至少一个网状筛网,例如多个网状筛网,其可以包括至少两个不同的规格网状筛网。 除尘器可以沿着室的底部内壁和/或内壁的垂直部分延伸。 除尘器可以包括具有第一量规的第一网状筛网; 第二网状筛,其具有小于第一量规的第二规格; 并且第二网状屏幕在第一网状筛网和内壁之间。 腔室可以包括在腔室的垂直内壁和底壁中的至少一个中的多个集尘凹部,其可以从包括一部分凹部和多部分凹部的组中选择,该组包括两个凹部 相对于彼此成角度的部分。 除尘器可以包括定位在主绝缘体的一部分和室的内壁之间的压力阱。 该腔室可包括气体循环风扇,其包括具有风扇切断装置的横流风扇,其可包括涡流控制口袋。 所述腔室可以包括预除垢机构,其包括在所述预分离管内的细长开口内包含接地棒的预除菌槽,所述前置离子槽可以包括柔顺构件,自动预除电切断机构,预电离起始控制机构和/或聚焦元件。 腔室可以包括细长的挡板,该挡板可以包括多个金字塔形结构,包括不同数量的通常为锥体的元件,并且以不同数量的大致金字塔形元件组成并且沿纵向轴线并且横向于纵向轴线定向。 腔内的声共振也可以通过将人造钳工器引入激光放电的定时中,从而在脉冲串内从脉冲到脉冲随机地或以重复模式改变脉冲间周期。
    • 4. 发明申请
    • HALOGEN GAS DISCHARGE LASER ELECTRODES
    • 卤化物放电激光电极
    • WO2005050794A3
    • 2006-01-05
    • PCT/US2004024062
    • 2004-07-27
    • CYMER INCSTEIGER THOMAS DUJAZDOWSKI RICHARD CDYER TIMOTHY SDUFFEY THOMAS PGILLESPIE WALTER DMOOSMAN BRYAN GMORTON RICHARD GSTRATE BRIAN D
    • STEIGER THOMAS DUJAZDOWSKI RICHARD CDYER TIMOTHY SDUFFEY THOMAS PGILLESPIE WALTER DMOOSMAN BRYAN GMORTON RICHARD GSTRATE BRIAN D
    • H01S20060101H01S3/038H01S3/097H01S3/0971H01S3/22H01S3/225H01S3/97
    • H01S3/225H01S3/0381H01S3/0385H01S3/0388H01S3/0971H01S3/09713
    • A method and apparatus for operating a gas discharge laser is disclosed which may comprise a laser chamber containing a laser gas, the laser gas comprising a halogen, two elongated electrode elements defining a cathode and an anode, each of the cathode and anode having an elongated discharge receiving region having a discharge receiving region width defining a width of an electric discharge between the electrode elements in the laser gas, the discharge receiving region defining two longitudinal edges, and the anode comprising: a first elongated anode portion comprising a first anode material defining a first anode material erosion rate, located entirely within the discharge receiving region of the anode, a pair of second elongated anode portions comprising a second anode material defining a second anode material erosion rate, respectively located on each side of the first anode portion and at least partially within the discharge receiving region; an elongated electrode center base portion integral with the first elongated anode portion; and wherein each of the respective pair of second elongated anode portions is mechanically bonded to the center base portion. The electrode element may comprise a cathode. The first and second materials may be different materials such as different brass alloys with different erosion rates in the halogen gas. The first elongated cathode portion may comprising a first cathode material, located entirely within the discharge receiving region comprising a first portion of an ellipse intersecting elongated side walls, with a bottom wall opposite the portion of the ellipse; and a pair of second elongated cathode side portions comprising a second cathode material with the intersection of each respective second cathode portion and the portion of the ellipse forming the discharge receiving region of the first cathode portion, forming respective ellipsoidal extensions of the first portion. The members may be mechanically bonded to the center base portion. Some may be diffusion bonded to the center base portion and/or each other. The electrode assembly may have a hooded discharge receiving region extension at respective ends of the electrode and the electrode portion may be formed with or bonded to the center base portion and may have slanted side walls.
    • 公开了一种用于操作气体放电激光器的方法和装置,其可以包括包含激光气体的激光室,激光气体包括卤素,限定阴极和阳极的两个细长电极元件,阴极和阳极中的每一个具有细长的 放电接收区域具有限定激光气体中的电极元件之间的放电宽度的放电接收区域宽度,放电接收区域限定两个纵向边缘,阳极包括:第一细长阳极部分,包括限定 第一阳极材料侵蚀速率,完全位于阳极的放电接收区域内;一对第二细长阳极部分,包括限定第二阳极材料侵蚀速率的第二阳极材料,第二阳极材料分别位于第一阳极部分的每一侧, 最少部分地在放电接收区域内; 与所述第一细长阳极部分成一体的细长电极中心基部; 并且其中相应的一对第二细长阳极部分中的每一个机械地结合到中心基部。 电极元件可以包括阴极。 第一和第二材料可以是不同的材料,例如在卤素气体中具有不同侵蚀速率的不同的黄铜合金。 第一细长阴极部分可以包括第一阴极材料,其全部位于放电接收区域内,包括与细长侧壁相交的椭圆的第一部分,其中与壁的部分相对的底壁; 以及一对第二细长阴极侧部分,其包括第二阴极材料,每个相应的第二阴极部分和形成第一阴极部分的放电接收区域的椭圆形部分的交点形成第一部分的相应的椭圆形延伸部分。 构件可以机械地结合到中心基部。 一些可以扩散结合到中心基部和/或彼此。 电极组件可以在电极的相应端部处具有连接的放电接收区域延伸部,并且电极部分可以形成有或结合到中心基部并且可以具有倾斜的侧壁。
    • 5. 发明申请
    • GAS DISCHARGE LASER CHAMBER IMPROVEMENTS
    • 气体放电激光室改进
    • WO2005104313A2
    • 2005-11-03
    • PCT/US2005/007168
    • 2005-03-03
    • CYMER, INC.PARTLO, William, N.AMADA, YoshihoCARMICHAEL, James, A.DYER, Timothy, S.GILLESPIE, Walter, D.MOOSMAN, Bryan, G.RETTIG, Curtis, L.STRATE, Brian, D.STEIGER, Thomas, D.TRINTCHOUK, Fedor, B.UJAZDOWSKI, Richard, C.
    • PARTLO, William, N.AMADA, YoshihoCARMICHAEL, James, A.DYER, Timothy, S.GILLESPIE, Walter, D.MOOSMAN, Bryan, G.RETTIG, Curtis, L.STRATE, Brian, D.STEIGER, Thomas, D.TRINTCHOUK, Fedor, B.UJAZDOWSKI, Richard, C.
    • H01S3/22
    • H01S3/036H01S3/0384H01S3/041H01S3/0971H01S3/225
    • A method and apparatus if disclosed which may comprise a high power high repetition rate gas discharge laser UV light source which may comprise: a gas discharge chamber comprising an interior wall comprising a vertical wall and an adjacent bottom wall; a gas circulation fan creating a gas flow path adjacent the interior vertical wall and the adjacent bottom wall; an in-chamber dust trap positioned a region of low gas flow, which may be along an interior wall and may comprise at least one meshed screen, e.g., a plurality of meshed screens, which may comprise at least two different gauge meshed screens. The dust trap may extend along the bottom interior wall of the chamber and/or a vertical portion of the interior wall. The dust trap may comprise a first meshed screen having a first gauge; a second meshed screen having a second gauge smaller than the first gauge; and the second meshed screen intermediate the first meshed screen and the interior wall. The chamber may comprise a plurality of dust collecting recesses in at least one of the vertical interior wall and the bottom wall of the chamber which may be selected from a group comprising a one-part recess and a multi-part recess, which may comprise two sections angled with respect to each other. The dust trap may comprise a pressure trap positioned between a portion of a main insulator and an interior wall of the chamber. The chamber may comprise a gas circulating fan comprising a cross-flow fan with a fan cutoff that may comprise a vortex control pocket. The chamber may comprise a preionization mechanism comprising a preionization tub containing a ground rod within an elongated opening in the preionization tube that may comprise a compliant member, an automatic preionization shut-off mechanism, a preionization onset control mechanism and/or a focusing element. The chamber may comprise an elongated baffle plate that may comprise a plurality of pyramidal structures including varying numbers of generally pyramidal elements and oriented in groups of varying numbers of generally pyramidal elements and oriented along and transverse to the longitudinal axis. Acoustic resonances within the chamber may also be reduced by introducing an artificial fitter into the timing of the laser discharges varying the inter-pulse period randomly or in a repeating pattern from pulse to pulse within a burst.
    • 如果公开的方法和装置,其可以包括高功率高重复率气体放电激光器UV光源,其可以包括:气体放电室,其包括包括垂直壁和相邻底壁的内壁; 气体循环风扇,其产生邻近内部垂直壁和相邻底壁的气体流动路径; 室内除尘器定位低气流区域,其可以沿着内壁并且可以包括至少一个网状筛网,例如多个网状筛网,其可以包括至少两个不同的规格网状筛网。 除尘器可以沿着室的底部内壁和/或内壁的垂直部分延伸。 除尘器可以包括具有第一量规的第一网状筛网; 第二网眼屏幕,其具有小于第一规格的第二规格; 并且第二网状屏幕在第一网状筛网和内壁之间中间。 腔室可以包括在腔室的垂直内壁和底壁中的至少一个中的多个集尘凹部,其可以从包括一部分凹部和多部分凹部的组中选择,该组包括两个 相对于彼此成角度的部分。 除尘器可以包括定位在主绝缘体的一部分和室的内壁之间的压力阱。 该腔室可以包括气体循环风扇,其包括具有风扇切断装置的横流风扇,其可以包括涡流控制袋。 所述腔室可以包括预电离机构,其包括在所述预电离管内的细长开口内包含接地棒的前置离子槽,其可以包括柔顺构件,自动预除电切断机构,预电离起始控制机构和/或聚焦元件。 腔室可以包括细长的挡板,其可以包括多个金字塔结构,其包括不同数量的大体锥体元件,并且以不同数量的大体锥体元件组成并且沿纵向轴线并且横向于纵向轴线定向。 通过将人工钳位器引入激光放电的定时,也可以通过在脉冲串内从脉冲到脉冲随机地或以重复模式改变脉冲周期的时间来减小腔室内的声共振。
    • 6. 发明申请
    • HALOGEN GAS DISCHARGE LASER ELECTRODES
    • 卤化物放电激光电极
    • WO2005050794A2
    • 2005-06-02
    • PCT/US2004/024062
    • 2004-07-27
    • CYMER, INC.STEIGER, Thomas, D.UJAZDOWSKI, Richard, C.DYER, Timothy, S.DUFFEY, Thomas, P.GILLESPIE, Walter, DMOOSMAN, Bryan, GMORTON, Richard, G.STRATE, Brian, D
    • STEIGER, Thomas, D.UJAZDOWSKI, Richard, C.DYER, Timothy, S.DUFFEY, Thomas, P.GILLESPIE, Walter, DMOOSMAN, Bryan, GMORTON, Richard, G.STRATE, Brian, D
    • H01S
    • H01S3/225H01S3/0381H01S3/0385H01S3/0388H01S3/0971H01S3/09713
    • A method and apparatus for operating a gas discharge laser is disclosed which may comprise a laser chamber containing a laser gas, the laser gas comprising a halogen, two elongated electrode elements defining a cathode and an anode, each of the cathode and anode having an elongated discharge receiving region having a discharge receiving region width defining a width of an electric discharge between the electrode elements in the laser gas, the discharge receiving region defining two longitudinal edges, and the anode comprising: a first elongated anode portion comprising a first anode material defining a first anode material erosion rate, located entirely within the discharge receiving region of the anode, a pair of second elongated anode portions comprising a second anode material defining a second anode material erosion rate, respectively located on each side of the first anode portion and at least partially within the discharge receiving region; an elongated electrode center base portion integral with the first elongated anode portion; and wherein each of the respective pair of second elongated anode portions is mechanically bonded to the center base portion. The electrode element may comprise a cathode. The first and second materials may be different materials such as different brass alloys with different erosion rates in the halogen gas. The first elongated cathode portion may comprising a first cathode material, located entirely within the discharge receiving region comprising a first portion of an ellipse intersecting elongated side walls, with a bottom wall opposite the portion of the ellipse; and a pair of second elongated cathode side portions comprising a second cathode material with the intersection of each respective second cathode portion and the portion of the ellipse forming the discharge receiving region of the first cathode portion, forming respective ellipsoidal extensions of the first portion. The members may be mechanically bonded to the center base portion. Some may be diffusion bonded to the center base portion and/or each other. The electrode assembly may have a hooded discharge receiving region extension at respective ends of the electrode and the electrode portion may be formed with or bonded to the center base portion and may have slanted side walls.
    • 公开了一种用于操作气体放电激光器的方法和装置,其可以包括包含激光气体的激光室,激光气体包括卤素,限定阴极和阳极的两个细长电极元件,阴极和阳极中的每一个具有细长的 放电接收区域具有限定激光气体中的电极元件之间的放电宽度的放电接收区域宽度,放电接收区域限定两个纵向边缘,阳极包括:第一细长阳极部分,包括限定 第一阳极材料侵蚀速率,完全位于阳极的放电接收区域内;一对第二细长阳极部分,包括限定第二阳极材料侵蚀速率的第二阳极材料,第二阳极材料分别位于第一阳极部分的每一侧, 至少部分地在放电接收区域内; 与所述第一细长阳极部分成一体的细长电极中心基部; 并且其中相应的一对第二细长阳极部分中的每一个机械地结合到中心基部。 电极元件可以包括阴极。 第一和第二材料可以是不同的材料,例如在卤素气体中具有不同侵蚀速率的不同的黄铜合金。 第一细长阴极部分可以包括第一阴极材料,其全部位于放电接收区域内,包括与细长侧壁相交的椭圆的第一部分,其中与壁的部分相对的底壁; 以及一对第二细长阴极侧部分,其包括第二阴极材料,每个相应的第二阴极部分和形成第一阴极部分的放电接收区域的椭圆形部分的交点形成第一部分的相应的椭圆形延伸部分。 构件可以机械地结合到中心基部。 一些可以扩散结合到中心基部和/或彼此。 电极组件可以在电极的相应端部处具有连接的放电接收区域延伸部,并且电极部分可以形成有或结合到中心基部并且可以具有倾斜的侧壁。