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    • 1. 发明申请
    • ULTRASONIC MERGING OF PARTICLES IN MICROWELLS
    • 超微粒子在微波炉中的超声波合成
    • WO2011064333A1
    • 2011-06-03
    • PCT/EP2010/068313
    • 2010-11-26
    • Jettec ABMANNEBERG, OttoWIKLUND, MartinÖNFELT, BjörnFRISK, ThomasHERTZ, Hans M.VANHERBERGHEN, Bruno
    • MANNEBERG, OttoWIKLUND, MartinÖNFELT, BjörnFRISK, ThomasHERTZ, Hans M.VANHERBERGHEN, Bruno
    • B01J19/00B01L3/00B06B1/02
    • B01J19/0046B01J2219/00315B01J2219/00486B01L3/5085B01L2200/0647B01L2400/0436B01L2400/0439
    • The present invention relates to a method for simultaneously merging suspended particles and/or cells in a plurality of discrete microwells, each of said microwells having at least a bottom wall and lateral walls, wherein a multifrequency or broadband acoustic wave comprising at least two different frequencies is applied to an inner volume of each of said microwells, the frequencies of said acoustic wave being selected to generate a standing and/or stationary wave in said volume; a device for simultaneously merging suspended particles and/or cells in a plurality of discrete microwells, comprising: a substrate with a plurality of discrete microwells, each of said microwells having at least a bottom wall and lateral walls; and one or more acoustic transducer(s), configured for applying a multifrequency or broadband acoustic wave, comprising at least two different frequencies, to an inner volume of each of said microwells; and the use of an acoustic transducer emitting a multifrequency or broadband acoustic wave comprising at least two different frequencies for simultaneously merging suspended particles and/or cells in a plurality of microwells.
    • 本发明涉及一种用于在多个离散的微孔中同时合并悬浮颗粒和/或细胞的方法,每个所述微孔至少具有底壁和侧壁,其中包括至少两个不同频率的多频或宽带声波 被施加到每个所述微孔的内部体积,所述声波的频率被选择为在所述体积中产生静止和/或静止波; 一种用于同时将多个离散微孔中的悬浮颗粒和/或细胞并入的装置,包括:具有多个离散微孔的基底,每个所述微孔至少具有底壁和侧壁; 以及一个或多个声学换能器,被配置为将包括至少两个不同频率的多频或宽带声波施加到每个所述微孔的内部体积; 以及使用发射包括至少两个不同频率的多频或宽带声波的声学换能器,以同时合并多个微孔中的悬浮颗粒和/或细胞。
    • 3. 发明申请
    • METHOD AND APPARATUS FOR GENERATING X-RAY OR EUV RADIATION
    • 用于产生X射线或EUV辐射的方法和装置
    • WO1997040650A1
    • 1997-10-30
    • PCT/SE1997000697
    • 1997-04-25
    • HERTZ, Hans, M.MALMQVIST, LarsRYMELL, LarsBERGLUND, Magnus
    • H05G02/00
    • H05G2/003H05G2/008H05H1/00
    • A method for generating X- or EUV-radiation via laser plasma emission, in which at least one target (17) is generated in a chamber, and at least one pulsed laser beam (3) is focused on the target (17) in the chamber. The target is generated in the form of a jet (17) of a liquid, and the laser beam (3) is focused on a spatially continuous portion of the jet (17). An apparatus for generating X- or EUV-radiation via laser plasma emission according to the method comprises a means for generating at least one laser beam (3), a chamber, a means (10) for generating at least one target (17) in the chamber, and a means (13) for focusing the laser beam (3) on the target (17) in the chamber (8). The target-generating means (10) is adapted to generate a jet (17) of a liquid. The focusing means (13) is adapted to focus the laser beam (3) on a spatially continuous portion of the jet (17).
    • 一种用于通过激光等离子体发射产生X射线或EUV辐射的方法,其中在腔室中产生至少一个靶(17),并且至少一个脉冲激光束(3)聚焦在目标(17)上 室。 目标以液体的喷射(17)的形式产生,并且激光束(3)聚焦在射流(17)的空间连续部分上。 根据该方法通过激光等离子体发射产生X射线或EUV辐射的装置包括用于产生至少一个激光束(3),腔室,用于产生至少一个靶(17)的装置(10)的装置, 以及用于将激光束(3)聚焦在腔室(8)中的靶(17)上的装置(13)。 目标产生装置(10)适于产生液体的射流(17)。 聚焦装置(13)适于将激光束(3)聚焦在射流(17)的空间连续部分上。
    • 5. 发明申请
    • CAPILLARY TUBING
    • 毛细管
    • WO2004010745A1
    • 2004-01-29
    • PCT/SE2003/001225
    • 2003-07-18
    • JETTEC ABJOHANSSON, GöranHERTZ, HansDE GROOT, Jaco
    • JOHANSSON, GöranHERTZ, HansDE GROOT, Jaco
    • H05G2/00
    • H05G2/003H05G2/006
    • A method and arrangement for generating x-ray or EUV radiation are disclosed. Target material is supplied from a container for target material to a jet-forming orifice in an interaction chamber by means of a flexible capillary tubing of considerable length, wherein the orifice is an integral part of the capillary tubing. A jet formed by urging target material through the orifice is made to interact with a beam of energy, thus producing a radiating plasma emitting the desired electromagnetic radiation. The use of a flexible capillary tubing for supplying target material from a source of target material to an orifice, which is integrated with the tubing, within an interaction chamber, in order to form therein a jet of target material for interaction with an energy beam to generate x-ray of EUV radiation, is also disclosed.
    • 公开了一种用于产生x射线或EUV辐射的方法和装置。 目标材料通过具有相当长度的柔性毛细管从目标材料的容器供应到相互作用室中的喷射形成孔,其中孔是毛细管的一个组成部分。 通过将目标材料通过孔推动形成的射流被制成与能量束相互作用,从而产生发射所需电磁辐射的辐射等离子体。 使用柔性毛细管来将目标材料从目标材料源提供给在相互作用室内与管相结合的孔口,以在其中形成用于与能量束相互作用的靶材料射流 生成的X射线的EUV辐射,也被披露。
    • 6. 发明申请
    • X-RAY WINDOW
    • WO2010083854A1
    • 2010-07-29
    • PCT/EP2009/000481
    • 2009-01-26
    • EXCILLUM ABHERTZ, HansHEMBERG, OscarTUOHIMAA, TomiOTENDAL, Mikael
    • HERTZ, HansHEMBERG, OscarTUOHIMAA, TomiOTENDAL, Mikael
    • H05G2/00G21K1/02
    • H01J35/18G21K1/02H01J2235/082
    • A self-cleaning X-ray window arrangement includes a primary X-ray- transparent window element, separating an ambient pressure region from an intermediate region, and a secondary X-ray-transparent window element, separating the intermediate region from a reduced pressure region. A contaminant is expected to deposit on a side of the secondary element facing the reduced pressure region. A heat source is adapted to heat a portion of the secondary window element for thereby evaporating contaminant. The secondary element shields the primary element from the reduced pressure region, in which contaminant is present, whereas the pressure-tight primary window element carries most of the differential pressure between the ambient pressure region and the reduced pressure region. Several features of the invention help to decrease the rate at which contaminant enters the intermediate region. By maintaining the pressure in the intermediate region close to the reduced pressure, the mechanical stress on the secondary window element can be limited as well as the exposure to harmful gases.
    • 自清洁X射线窗口装置包括:初级X射线透明窗口元件,将环境压力区域与中间区域分开;以及次X射线透明窗口元件,将中间区域与减压区域分离 。 预期污染物沉积在面向减压区域的次级元件的一侧上。 热源适于加热次窗口元件的一部分,从而蒸发污染物。 次要元件将主要元件从存在污染物的减压区域屏蔽,而压力密封的主窗口元件承载环境压力区域和减压区域之间的大部分差压。 本发明的几个特征有助于降低污染物进入中间区域的速率。 通过保持接近减压的中间区域的压力,可以限制次窗口元件上的机械应力以及暴露于有害气体。