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1. 发明申请

US20080179548A1 Laser produced plasma EUV light source 有权
标题翻译：激光产生等离子体EUV光源
公开(公告)号：US20080179548A1
公开(公告)日：2008-07-31
申请号：US11786145
申请日：2007-04-10
申请人： Alexander Bykanov , Norbert Bowering , Igor Fomenkov , David Brandt , Alexander Ershov , Oleh Khodykin , William Partlo
发明人： Alexander Bykanov , Norbert Bowering , Igor Fomenkov , David Brandt , Alexander Ershov , Oleh Khodykin , William Partlo
IPC分类号： H05H1/24
CPC分类号： G03F7/70916 , B82Y10/00 , G03F7/70033 , G03F7/70908 , G03F7/70983 , H05G2/003 , H05G2/008
摘要： A device is disclosed which may comprise a system generating a plasma at a plasma site, the plasma producing EUV radiation and ions exiting the plasma. The device may also include an optic, e.g., a multi-layer mirror, distanced from the site by a distance, d, and a flowing gas disposed between the plasma and optic, the gas establishing a gas pressure sufficient to operate over the distance, d, to reduce ion energy below a pre-selected value before the ions reach the optic. In one embodiment, the gas may comprise hydrogen and in a particular embodiment, the gas may comprise greater than 50 percent hydrogen by volume.
摘要翻译：公开了一种可以包括在等离子体位置处产生等离子体的系统，等离子体产生EUV辐射和离开等离子体的离子的装置。该装置还可以包括一个光学元件，例如多个远离现场的多层反射镜，以及设置在等离子体和光学元件之间的流动气体，该气体建立足以在该距离上操作的气体压力， d，在离子到达光学器件之前，将离子能量降低到预先选定的值以下。在一个实施方案中，气体可以包含氢气，并且在一个具体实施方案中，气体可以包含大于50体积％的氢气。

2. 发明申请

US20050269529A1 Systems and methods for reducing the influence of plasma-generated debris on the internal components of an EUV light source 有权
标题翻译：用于减少等离子体产生的碎片对EUV光源的内部部件的影响的系统和方法
公开(公告)号：US20050269529A1
公开(公告)日：2005-12-08
申请号：US11174442
申请日：2005-06-29
申请人： Alexander Ershov , William Marx , Norbert Bowering , Bjorn Hansson , Oleh Khodykin , Igor Fomenkov , William Partlo
发明人： Alexander Ershov , William Marx , Norbert Bowering , Bjorn Hansson , Oleh Khodykin , Igor Fomenkov , William Partlo
IPC分类号： G03F7/20 , G01J1/00
CPC分类号： B82Y10/00 , G03F7/70033 , G03F7/70175 , G03F7/7085 , G03F7/70916 , G21K1/06 , G21K2201/06 , H05G2/001
摘要： Systems and methods are disclosed for reducing the influence of plasma generated debris on internal components of an EUV light source. In one aspect, an EUV metrology monitor is provided which may have a heater to heat an internal multi-layer filtering mirror to a temperature sufficient to remove deposited debris from the mirror. In another aspect, a device is disclosed for removing plasma generated debris from an EUV light source collector mirror having a different debris deposition rate at different zones on the collector mirror. In a particular aspect, an EUV collector mirror system may comprise a source of hydrogen to combine with Li debris to create LiH on a collector surface; and a sputtering system to sputter LiH from the collector surface. In another aspect, an apparatus for etching debris from a surface of a EUV light source collector mirror with a controlled plasma etch rate is disclosed.
摘要翻译：公开了用于减少等离子体产生的碎片对EUV光源的内部部件的影响的系统和方法。在一个方面，提供了一种EUV计量监测器，其可以具有加热器以将内部多层过滤镜加热到足以从反射镜去除沉积的碎屑的温度。在另一方面，公开了一种用于从收集器反射镜上的不同区域处具有不同碎屑沉积速率的EUV光源收集镜去除等离子体产生的碎屑的装置。在特定方面，EUV收集器镜系统可以包括氢源以与Li碎片结合以在收集器表面上产生LiH; 以及从收集器表面溅射LiH的溅射系统。在另一方面，公开了一种用于从具有受控等离子体蚀刻速率的EUV光源收集镜的表面蚀刻碎片的装置。

3. 发明申请

US20060192151A1 SYSTEMS FOR PROTECTING INTERNAL COMPONENTS OF AN EUV LIGHT SOURCE FROM PLASMA-GENERATED DEBRIS 有权
标题翻译：用于保护来自等离子体生物反应器的EUV光源的内部组分的系统
公开(公告)号：US20060192151A1
公开(公告)日：2006-08-31
申请号：US11067099
申请日：2005-02-25
申请人： Norbert Bowering , Bjorn Hansson , Alexander Bykanov , Oleh Khodykin , Alexander Ershov , William Partlo
发明人： Norbert Bowering , Bjorn Hansson , Alexander Bykanov , Oleh Khodykin , Alexander Ershov , William Partlo
IPC分类号： G01J1/00
CPC分类号： G03F7/70925 , B82Y10/00 , G03F7/70033 , G03F7/70166 , G03F7/70916 , G21K2201/06 , H05G2/001
摘要： Systems and methods are disclosed for protecting an EUV light source plasma production chamber optical element surface from debris generated by plasma formation. In one aspect of an embodiment of the present invention, a shield is disclosed which comprises at least one hollow tube positioned between the optical element and a plasma formation site. The tube is oriented to capture debris while allowing light to pass through the tube's lumen via reflection at relatively small angles of grazing incidence. In another aspect of an embodiment of the present invention, a shield is disclosed which is heated to a temperature sufficient to remove one or more species of debris material that has deposited on the shield. In yet another aspect of an embodiment of the present invention, a system is disclosed which a shield is moved from a light source plasma chamber to a cleaning chamber where the shield is cleaned.
摘要翻译：公开了用于保护EUV光源等离子体生产室光学元件表面免受等离子体形成产生的碎片的系统和方法。在本发明的实施例的一个方面，公开了一种屏蔽件，其包括位于光学元件和等离子体形成部位之间的至少一个中空管。管被定向以捕获碎片，同时允许光以相对较小的掠入射角度的反射通过管的内腔。在本发明的一个实施例的另一方面，公开了一种屏蔽件，其被加热到足以去除沉积在屏蔽上的一种或多种碎屑材料的温度。在本发明的一个实施例的另一方面，公开了一种系统，其将屏蔽件从光源等离子体室移动到清洁室，其中屏蔽件被清洁。

4. 发明申请

US20070187627A1 Systems and methods for reducing the influence of plasma-generated debris on the internal components of an EUV light source 有权
标题翻译：用于减少等离子体产生的碎片对EUV光源的内部部件的影响的系统和方法
公开(公告)号：US20070187627A1
公开(公告)日：2007-08-16
申请号：US11705954
申请日：2007-02-13
申请人： Alexander Ershov , William Marx , Norbert Bowering , Bjorn Hansson , Oleh Khodykin , Igor Fomenkov
发明人： Alexander Ershov , William Marx , Norbert Bowering , Bjorn Hansson , Oleh Khodykin , Igor Fomenkov
IPC分类号： G01J3/10
CPC分类号： B82Y10/00 , G03F7/70033 , G03F7/70175 , G03F7/7085 , G03F7/70916 , G21K1/06 , G21K2201/06 , H05G2/001
摘要： Systems and methods are disclosed for reducing the influence of plasma generated debris on internal components of an EUV light source. In one aspect, an EUV metrology monitor is provided which may have a heater to heat an internal multi-layer filtering mirror to a temperature sufficient to remove deposited debris from the mirror. In another aspect, a device is disclosed for removing plasma generated debris from an EUV light source collector mirror having a different debris deposition rate at different zones on the collector mirror. In a particular aspect, an EUV collector mirror system may comprise a source of hydrogen to combine with Li debris to create LiH on a collector surface; and a sputtering system to sputter LiH from the collector surface. In another aspect, an apparatus for etching debris from a surface of a EUV light source collector mirror with a controlled plasma etch rate is disclosed.
摘要翻译：公开了用于减少等离子体产生的碎片对EUV光源的内部部件的影响的系统和方法。在一个方面，提供了一种EUV计量监测器，其可以具有加热器以将内部多层过滤镜加热到足以从反射镜去除沉积的碎屑的温度。在另一方面，公开了一种用于从收集器反射镜上的不同区域处具有不同碎屑沉积速率的EUV光源收集镜去除等离子体产生的碎屑的装置。在特定方面，EUV收集器镜系统可以包括氢源以与Li碎片结合以在收集器表面上产生LiH; 以及从收集器表面溅射LiH的溅射系统。在另一方面，公开了一种用于从具有受控等离子体蚀刻速率的EUV光源收集镜的表面蚀刻碎片的装置。

5. 发明申请

US20070001131A1 LPP EUV light source drive laser system 有权
标题翻译： LPP EUV光源驱动激光系统
公开(公告)号：US20070001131A1
公开(公告)日：2007-01-04
申请号：US11174299
申请日：2005-06-29
申请人： Alexander Ershov , Alexander Bykanov , Oleh Khodykin , Igor Fomenkov
发明人： Alexander Ershov , Alexander Bykanov , Oleh Khodykin , Igor Fomenkov
IPC分类号： G01J1/00
CPC分类号： H05G2/003 , H05G2/008
摘要： An apparatus and method is disclosed which may comprise a laser produced plasma EUV system which may comprise a drive laser producing a drive laser beam; a drive laser beam first path having a first axis; a drive laser redirecting mechanism transferring the drive laser beam from the first path to a second path, the second path having a second axis; an EUV collector optical element having a centrally located aperture; and a focusing mirror in the second path and positioned within the aperture and focusing the drive laser beam onto a plasma initiation site located along the second axis. The apparatus and method may comprise the drive laser beam is produced by a drive laser having a wavelength such that focusing on an EUV target droplet of less than about 100 μm at an effective plasma producing energy if not practical in the constraints of the geometries involved utilizing a focusing lens. The drive laser may comprise a CO2 laser. The drive laser redirecting mechanism may comprise a mirror.
摘要翻译：公开了一种可以包括激光产生等离子体EUV系统的装置和方法，其可以包括产生驱动激光束的驱动激光器; 具有第一轴的驱动激光束第一路径; 驱动激光重定向机构，其将所述驱动激光束从所述第一路径传递到第二路径，所述第二路径具有第二轴线; 具有中心定位的孔的EUV收集器光学元件; 以及在第二路径中的聚焦反射镜并且定位在孔内并将驱动激光束聚焦到沿着第二轴线定位的等离子体起始位置。该装置和方法可以包括驱动激光束由具有波长的驱动激光器产生，该激光器具有在有效等离子体产生能量的情况下聚焦在小于约100mum的EUV目标液滴上，如果在所涉及的几何形状的约束条件下聚焦镜头。驱动激光器可以包括CO 2激光器。驱动激光重定向机构可以包括镜子。

6. 发明申请

US20060192152A1 LPP EUV light source drive laser system 有权
标题翻译： LPP EUV光源驱动激光系统
公开(公告)号：US20060192152A1
公开(公告)日：2006-08-31
申请号：US11217161
申请日：2005-08-31
申请人： Alexander Ershov , Alexander Bykanov , Oleh Khodykin , Igor Fomenkov
发明人： Alexander Ershov , Alexander Bykanov , Oleh Khodykin , Igor Fomenkov
IPC分类号： G01J1/00
CPC分类号： H05G2/003 , H05G2/005 , H05G2/008
摘要： An apparatus and method is disclosed which may comprise a laser produced plasma EUV system which may comprise a drive laser producing a drive laser beam; a drive laser beam first path having a first axis; a drive laser redirecting mechanism transferring the drive laser beam from the first path to a second path, the second path having a second axis; an EUV collector optical element having a centrally located aperture; and a focusing mirror in the second path and positioned within the aperture and focusing the drive laser beam onto a plasma initiation site located along the second axis. The apparatus and method may comprise the drive laser beam is produced by a drive laser having a wavelength such that focusing on an EUV target droplet of less than about 100 μm at an effective plasma producing energy if not practical in the constraints of the geometries involved utilizing a focusing lens. The drive laser may comprise a CO2 laser. The drive laser redirecting mechanism may comprise a mirror.
摘要翻译：公开了一种可以包括激光产生等离子体EUV系统的装置和方法，其可以包括产生驱动激光束的驱动激光器; 具有第一轴的驱动激光束第一路径; 驱动激光重定向机构，其将所述驱动激光束从所述第一路径传递到第二路径，所述第二路径具有第二轴线; 具有中心定位的孔的EUV收集器光学元件; 以及在第二路径中的聚焦反射镜并且定位在孔内并将驱动激光束聚焦到沿着第二轴线定位的等离子体起始位置。该装置和方法可以包括驱动激光束由具有波长的驱动激光器产生，该激光器具有在有效等离子体产生能量的情况下聚焦在小于约100mum的EUV目标液滴上，如果在所涉及的几何形状的约束条件下聚焦镜头。驱动激光器可以包括CO 2激光器。驱动激光重定向机构可以包括镜子。

7. 发明申请

US20070023705A1 EUV light source collector lifetime improvements 有权
标题翻译： EUV光源收集器寿命改善
公开(公告)号：US20070023705A1
公开(公告)日：2007-02-01
申请号：US11168190
申请日：2005-06-27
申请人： William Partlo , Alexander Ershov , Igor Fomenkov , Oleh Khodykin
发明人： William Partlo , Alexander Ershov , Igor Fomenkov , Oleh Khodykin
IPC分类号： G01J3/10 , H05G2/00
CPC分类号： H05G2/003 , B82Y10/00 , G03F7/70925 , G21K1/062 , H05G2/005
摘要： An apparatus and method for cleaning a plasma source material compound from a plasma produced EUV light source collector optic which may comprise reacting the plasma source material compound with hydrogen to form a hydride of the plasma source material from the plasma source material contained in the plasma source material compound on the collector optic. The method may further comprise initiating the reacting by introducing hydrogen into a plasma formation chamber containing the collector optic, and may further comprise removing the hydride from the collector optic, e.g., by cleaning plasma action and/or plasma source material sputtering, or other means as may be determined to be effective. An apparatus and method of extending the useful life of a plasma produced EUV light source collector coating layer may comprise in situ replacement of the material of the coating layer by deposition of the coating layer material onto the coating layer.
摘要翻译：一种用于从等离子体产生的EUV光源收集器光学元件清洗等离子体源材料化合物的装置和方法，其可以包括使等离子体源材料化合物与氢反应以从等离子体源中包含的等离子体源材料形成等离子体源材料的氢化物收集器光学元件上的材料化合物。该方法还可以包括通过将氢引入到包含收集器光学元件的等离子体形成室中来引发反应，并且还可以包括例如通过清洗等离子体作用和/或等离子体源材料溅射或其它方法从收集器光学元件中去除氢化物可能被确定为有效。延长等离子体产生的EUV光源集电器涂层的使用寿命的装置和方法可包括通过将涂层材料沉积到涂层上来原位置换涂层的材料。

8. 发明申请

US20060131515A1 Collector for EUV light source 有权
标题翻译： EUV光源收集器
公开(公告)号：US20060131515A1
公开(公告)日：2006-06-22
申请号：US10798740
申请日：2004-03-10
申请人： William Partlo , John Algots , Gerry Blumenstock , Norbert Bowering , Alexander Ershov , Igor Fomenkov , Xiaojiang Pan
发明人： William Partlo , John Algots , Gerry Blumenstock , Norbert Bowering , Alexander Ershov , Igor Fomenkov , Xiaojiang Pan
IPC分类号： G01J1/00
CPC分类号： H05G2/001 , B82Y10/00 , G03F7/70033 , G03F7/70175 , G03F7/70916 , G21K1/062
摘要： A method and apparatus for debris removal from a reflecting surface of an EUV collector in an EUV light source is disclosed which may comprise the reflecting surface comprises a first material and the debris comprises a second material and/or compounds of the second material, the system and method may comprise a controlled sputtering ion source which may comprise a gas comprising the atoms of the sputtering ion material; and a stimulating mechanism exciting the atoms of the sputtering ion material into an ionized state, the ionized state being selected to have a distribution around a selected energy peak that has a high probability of sputtering the second material and a very low probability of sputtering the first material. The stimulating mechanism may comprise an RF or microwave induction mechanism.
摘要翻译：公开了一种用于从EUV光源中的EUV收集器的反射表面去除碎屑的方法和装置，其可以包括反射表面，其包括第一材料，并且所述碎屑包括第二材料和/或第二材料的化合物，所述系统并且方法可以包括受控的溅射离子源，其可以包括包含溅射离子材料的原子的气体; 以及将溅射离子材料的原子激发成离子化状态的刺激机构，所选择的离子化状态具有围绕选择的能量峰的分布，其具有溅射第二材料的可能性很高，并且溅射的可能性非常低材料。刺激机构可以包括RF或微波感应机构。

9. 发明申请

US20070158596A1 EUV light source 有权
标题翻译： EUV光源
公开(公告)号：US20070158596A1
公开(公告)日：2007-07-12
申请号：US11647007
申请日：2006-12-27
申请人： I. Oliver , William Partlo , Igor Fomenkov , Alexander Ershov , Norbert Bowering , John Viatella , Dave Myers
发明人： I. Oliver , William Partlo , Igor Fomenkov , Alexander Ershov , Norbert Bowering , John Viatella , Dave Myers
IPC分类号： G01J3/10
CPC分类号： G03F7/70033 , B82Y10/00 , G03F7/70175 , G03F7/70916 , G21K1/062 , G21K2201/061 , G21K2201/065 , G21K2201/067 , H05G2/003 , H05G2/005 , H05G2/006 , H05G2/008
摘要： An apparatus and method is described which may comprise a plasma produced extreme ultraviolet (“EUV”) light source multilayer collector which may comprise a plasma formation chamber; a shell within the plasma formation chamber in the form of a collector shape having a focus; the shell having a sufficient size and thermal mass to carry operating heat away from the multilayer reflector and to radiate the heat from the surface of the shell on a side of the shell opposite from the focus. The material of the shell may comprise a material selected from a group which may comprise silicon carbide, silicon, Zerodur or ULE glass, aluminum, beryllium, molybdenum, copper and nickel. The apparatus and method may comprise at least one radiative heater directed at the shell to maintain the steady state temperature of the shell within a selected range of operating temperatures.
摘要翻译：描述了可以包括可以包括等离子体形成室的等离子体产生的极紫外（“EUV”）光源多层收集器的装置和方法; 等离子体形成室内的壳体，具有焦点的收集器形状; 壳体具有足够的尺寸和热质量以将工作热量从多层反射器散开，并且在壳体的与焦点相对的一侧上从壳体的表面辐射热量。壳的材料可以包括选自可以包括碳化硅，硅，Zerodur或ULE玻璃，铝，铍，钼，铜和镍的组的材料。装置和方法可以包括指向壳体的至少一个辐射加热器，以将壳体的稳态温度维持在所选择的工作温度范围内。

10. 发明申请

US20050199829A1 EUV light source 有权
公开(公告)号：US20050199829A1
公开(公告)日：2005-09-15
申请号：US10900839
申请日：2004-07-27
申请人： William Partlo , Norbert Bowering , Alexander Ershov , Igor Fomenkov , David Myers , Ian Oliver , John Viatella , Robert Jacques
发明人： William Partlo , Norbert Bowering , Alexander Ershov , Igor Fomenkov , David Myers , Ian Oliver , John Viatella , Robert Jacques
IPC分类号： G03F7/20 , G21K1/06 , H01J35/20 , H05G2/00 , H01J65/04
CPC分类号： G03F7/70033 , B82Y10/00 , G03F7/70175 , G03F7/70916 , G21K1/062 , G21K2201/061 , G21K2201/065 , G21K2201/067 , H05G2/003 , H05G2/005 , H05G2/006 , H05G2/008
摘要： An apparatus and method for EUV light production is disclosed which may comprise a laser produced plasma (“LPP”) extreme ultraviolet (“EUV”) light source control system comprising a target delivery system adapted to deliver moving plasma initiation targets and an EUV light collection optic having a focus defining a desired plasma initiation site, comprising: a target tracking and feedback system comprising: at least one imaging device providing as an output an image of a target stream track, wherein the target stream track results from the imaging speed of the camera being too slow to image individual plasma formation targets forming the target stream imaged as the target stream track; a stream track error detector detecting an error in the position of the target stream track in at least one axis generally perpendicular to the target stream track from a desired stream track intersecting the desired plasma initiation site. At least one target crossing detector may be aimed at the target track and detecting the passage of a plasma formation target through a selected point in the target track. A drive laser triggering mechanism utilizing an output of the target crossing detector to determine the timing of a drive laser trigger in order for a drive laser output pulse to intersect the plasma initiation target at a selected plasma initiation site along the target track at generally its closest approach to the desired plasma initiation site. A plasma initiation detector may be aimed at the target track and detecting the location along the target track of a plasma initiation site for a respective target. An intermediate focus illuminator may illuminate an aperture formed at the intermediate focus to image the aperture in the at least one imaging device. The at least one imaging device may be at least two imaging devices each providing an error signal related to the separation of the target track from the vertical centerline axis of the image of the intermediate focus based upon an analysis of the image in the respective one of the at least two imaging devices. A target delivery feedback and control system may comprise a target delivery unit; a target delivery displacement control mechanism displacing the target delivery mechanism at least in an axis corresponding to a first displacement error signal derived from the analysis of the image in the first imaging device and at least in an axis corresponding to a second displacement error signal derived from the analysis of the image in the second imaging device.

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