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    • 4. 发明授权
    • Laminated metal thin plate formed by electrodeposition and method of producing the same
    • 通过电沉积形成的层压金属薄板及其制造方法
    • US07393594B2
    • 2008-07-01
    • US10985982
    • 2004-11-12
    • Tohru YamasakiTakayasu Mochizuki
    • Tohru YamasakiTakayasu Mochizuki
    • B32B15/01C25D1/20C25D5/14C25D7/00
    • B24D5/12B24D18/0018C25D1/00Y10S428/935Y10T428/12458Y10T428/12632Y10T428/1291Y10T428/12944
    • A laminated metal thin plate produced by electrodeposition is composed of a plurality of metal layers provided by at least two kinds of materials different in composition from each other. The laminated metal thin plate includes a first layer excellent in mechanical characteristics and/or chemical resistance and a second layer excellent in electrical characteristics such as electrical conductivity. The first and the second layers are adhered to each other in atomic level directly at their interface, with composition gradient at their interface, or with an adherence buffer layer such as a copper thin film interposed therebetween. The first layer is at first deposited on an electrode substrate. The second layer is deposited on the first layer. Deposition is repeatedly carried out in such a way that the first layers on opposite sides of the second layer are equal in thickness. Finally, the electrode substrate is dissolved and removed.
    • 通过电沉积制造的层压金属薄板由由彼此不同组成的至少两种材料提供的多个金属层组成。 层压金属薄板包括机械特性和/或耐化学性优异的第一层和电性能等导电性优异的第二层。 第一层和第二层以原子水平直接在它们的界面处彼此附着,其界面处的组成梯度,或者介于其间的诸如铜薄膜之类的粘附缓冲层。 第一层首先沉积在电极基底上。 第二层沉积在第一层上。 以这样的方式重复进行沉积,使得第二层的相对侧上的第一层的厚度相等。 最后,将电极基片溶解并除去。
    • 5. 发明授权
    • Laser plasma generation method and system
    • 激光等离子体生成方法和系统
    • US06931049B2
    • 2005-08-16
    • US10102868
    • 2002-03-22
    • Takayasu Mochizuki
    • Takayasu Mochizuki
    • G21K1/00G21K5/08H05G2/00H05H1/22H05H1/24H01S3/091
    • G21B1/23
    • A main laser beam is focused to irradiate a tip of a high-density spouting gas flow formed by heating and then vaporizing a target material by a light beam for preheating making it to the plasma. As the result, the generation of a fast debris in the target material can be suppressed. And a discharge of the fast debris from the target material is also suppressed and extinguished by heating and then vaporizing them by a light beam for transpiration which is emitted at an adjusted time after the generation of the plasma. Thus, the fast debris which still appears in the plasma formed after preheating can be almost perfectly vaporized and extinguished by the light beam for transpiration.
    • 主激光束被聚焦以照射通过加热形成的高密度喷射气流的尖端,然后通过用于预热的光束将目标材料蒸发使其等离子体。 结果,可以抑制目标材料中快速碎屑的产生。 并且通过加热然后将来自目标材料的快速碎屑的放电也被抑制并熄灭,然后通过在产生等离子体之后的调整时间发射的用于蒸腾的光束蒸发它们。 因此,仍然出现在预热后形成的等离子体中的快速碎片几乎可以被蒸发的光束完全蒸发并熄灭。
    • 10. 发明授权
    • Method and apparatus for continuously generating laser plasma X-rays by the use of a cryogenic target
    • 通过使用低温靶连续生成激光等离子体X射线的方法和装置
    • US06320937B1
    • 2001-11-20
    • US09556293
    • 2000-04-24
    • Takayasu Mochizuki
    • Takayasu Mochizuki
    • H01J3508
    • H05G2/003H05G2/008H05H6/00
    • In a method and an apparatus for continuously generating laser plasma X-rays, pulsed X-rays are continuously generated at a stable output level for a long period of time from plasma produced by converging and irradiating a repetitive-shot pulsed main laser beam having high peak power onto a target formed on a cryogenic target layer. The basic structure comprises a rotary element having a cylindrical surface excellent in heat conductivity and rotatable within a vacuum chamber. A cooling device supplies the rotary element with a cryogenic fluid to cool. A cryogenic material supply mechanism supplies a chemically inert cryogenic material having a gaseous phase at temperature. From the cryogenic material, a cryogenic target layer of a predetermined thickness is formed on the surface of the rotary element. A main pulsed laser irradiating device continuously generates the pulsed X-rays from the plasma generated by the main laser beam generator. A crater produced after the main laser beam is converged and irradiated is brought into contact with the cryogenic material in a gaseous phase during rotation of the rotary element to reproduce the cryogenic target layer. The auxiliary laser beam device generates a pulsed auxiliary laser beam under separate control and irradiates the beam to remove fine particle debris of the cryogenic target layer ejected from the converging irradiation spot after dissipation of the plasma so as to heat the fine particle debris to vaporize and eliminate the debris.
    • 在连续生成激光等离子体X射线的方法和装置中,脉冲X射线长时间连续地产生等离子体,该等离子体通过会聚并照射具有高的等离子体的重复脉冲的主激光束而产生 在低温目标层上形成的靶上的峰值功率。 基本结构包括具有导热性优异且可在真空室内旋转的圆柱形表面的旋转元件。 冷却装置向旋转元件供应低温流体以冷却。 低温材料供应机构在温度下提供具有气相的化学惰性低温材料。 从低温材料,在旋转元件的表面上形成预定厚度的低温目标层。 主脉冲激光照射装置从主激光发生器产生的等离子体连续地产生脉冲X射线。 在旋转元件旋转期间,主激光束会聚和照射后产生的火山口在气相中与低温材料接触以再现低温目标层。 辅助激光束装置在分离的控制下产生脉冲辅助激光束,并照射光束以去除等离子体耗散之后从会聚照射点喷射的低温靶层的细颗粒碎片,以加热微粒碎片蒸发, 消除碎片。