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    • 1. 发明授权
    • Method for fabricating neutron supermirror using neutron monochromator structures
    • 使用中子单色器结构制造中子超镜的方法
    • US07635839B2
    • 2009-12-22
    • US11695073
    • 2007-04-02
    • Sang-Jin ChoChang-Hee LeeHark-Rho KimJi-Yong So
    • Sang-Jin ChoChang-Hee LeeHark-Rho KimJi-Yong So
    • B21D33/00G21C7/00
    • G21K1/062B82Y10/00G21K2201/067G21K2201/068Y10S376/904Y10S376/906Y10T29/301Y10T29/303
    • A method for fabricating a supermirror for forming a neutron guide. In the method, a neutron supermirror, which is widely used in the formation of thin films in cold neutron guides and the spectrometer field, is fabricated with nickel thin films and titanium thin films, having varying thickness, using a combination of monochromator structures in which nickel thin films and titanium thin films, having the same thickness, are stacked in the form of periodic structures. According to the method, a combination of monochromator structures having a variety of different thicknesses is formed, such that the amount of the overlap of peaks due to the monochromator structures can be adjusted to increase reflectivity, and some of the monochromator structures can be removed during the fabrication of the supermirror to make it easy to extract monochromatic beams, such that it is easy to fabricate a transmission monochromator, rather than a reflection monochromator.
    • 一种用于制造用于形成中子引导件的超镜的方法。 在该方法中,广泛用于在冷中子导向器和光谱仪场中形成薄膜的中子超镜由具有不同厚度的镍薄膜和钛薄膜制成,使用单色器结构的组合,其中 具有相同厚度的镍薄膜和钛薄膜以周期性结构的形式堆叠。 根据该方法,形成具有各种不同厚度的单色器结构的组合,使得可以调节由于单色器结构引起的峰的重叠量以增加反射率,并且可以在一些单色器结构中去除一些单色器结构 超镜的制造使得易于提取单色光束,使得易于制造透射单色仪而不是反射单色仪。
    • 2. 发明申请
    • Method for fabricating neutron supermirror using neutron monochromator structures
    • 使用中子单色器结构制造中子超镜的方法
    • US20080115338A1
    • 2008-05-22
    • US11695073
    • 2007-04-02
    • Sang-Jin ChoChang-Hee LeeHark-Rho KimJi-Yong So
    • Sang-Jin ChoChang-Hee LeeHark-Rho KimJi-Yong So
    • B21D33/00
    • G21K1/062B82Y10/00G21K2201/067G21K2201/068Y10S376/904Y10S376/906Y10T29/301Y10T29/303
    • A method for fabricating a supermirror for forming a neutron guide. In the method, a neutron supermirror, which is widely used in the formation of thin films in cold neutron guides and the spectrometer field, is fabricated with nickel thin films and titanium thin films, having varying thickness, using a combination of monochromator structures in which nickel thin films and titanium thin films, having the same thickness, are stacked in the form of periodic structures. According to the method, a combination of monochromator structures having a variety of different thicknesses is formed, such that the amount of the overlap of peaks due to the monochromator structures can be adjusted to increase reflectivity, and some of the monochromator structures can be removed during the fabrication of the supermirror to make it easy to extract monochromatic beams, such that it is easy to fabricate a transmission monochromator, rather than a reflection monochromator.
    • 一种用于制造用于形成中子引导件的超镜的方法。 在该方法中,广泛用于在冷中子导向器和光谱仪场中形成薄膜的中子超镜由具有不同厚度的镍薄膜和钛薄膜制成,使用单色器结构的组合,其中 具有相同厚度的镍薄膜和钛薄膜以周期性结构的形式堆叠。 根据该方法,形成具有各种不同厚度的单色器结构的组合,使得可以调节由于单色器结构引起的峰的重叠量以增加反射率,并且可以在一些单色器结构中去除一些单色器结构 超镜的制造使得易于提取单色光束,使得易于制造透射单色仪而不是反射单色仪。
    • 4. 发明授权
    • Multiple star wavelength division multiplexing passive optical networks using a wavelength assignment method
    • 使用波长分配方法的多星波分复用无源光网络
    • US08687972B2
    • 2014-04-01
    • US13353204
    • 2012-01-18
    • Chang-Hee LeeSang-Mook LeeSil-Gu Mun
    • Chang-Hee LeeSang-Mook LeeSil-Gu Mun
    • H04B10/00
    • H04J14/0246H04J14/0226H04J14/0247H04J14/025H04J14/0252H04J14/0257H04J14/0282
    • The present invention discloses a multiple star wavelength division multiplexing passive optical network system using a wavelength assignment method.In a multiple star wavelength division multiplexing passive optical network system using a wavelength assignment method according to the present invention, only one WDM-PON system can provides services for a plurality of subscribers who is distributed in a wide range of area through multiple starring, by setting one or more band for transmitting up-stream signals as an up-stream basic band and one or more band for transmitting down-stream signals as a down-stream basic band, respectively, and by dividing each of the up-stream basic band and the down-stream basic band into a plurality of wavelength sub-bands and assigning the divided sub-bands to different areas using a wavelength division multiplexer/de-multiplexer which splits a band into two or more sub-bands.
    • 本发明公开了一种使用波长分配方法的多星波分复用无源光网络系统。 在使用根据本发明的波长分配方法的多星波分复用无源光网络系统中,只有一个WDM-PON系统可以通过多重主播向广泛范围内分布的多个用户提供服务,通过 设置一个或多个频带,用于发送上行信号作为上行基本频带和用于发送下行流信号的一个或多个频带作为下行基本频带,并且通过划分每个上行基本频带 和下游基本频带分成多个波长子带,并使用将频带分成两个或更多个子频带的波分多路复用器/去多路复用器将分割的子带分配给不同的区域。
    • 5. 发明申请
    • NEEDLELESS INJECTOR
    • 无针注射器
    • US20130190685A1
    • 2013-07-25
    • US13637638
    • 2011-01-25
    • Min-Su ChoChang-Hee Lee
    • Min-Su ChoChang-Hee Lee
    • A61M5/30
    • A61M5/30A61M5/1782A61M5/31533A61M5/31543A61M5/31548A61M2005/202A61M2005/2073A61M2005/2411A61M2005/3114
    • The present invention relates to a needleless injector. The needleless injector includes: a piston shaft including a plurality of holders on an outer surface in a circumferential direction thereof; a cylinder assembly which slidably receives and supports the piston shaft in the forward and backward directions; a plurality of balls which are received in the cylinder assembly and disposed around the piston shaft, the plurality of balls being movable in a radial direction and inserted into the plurality of holders when the piston shaft is moved in the backward direction; a trigger button slidably coupled to a rear end of the cylinder assembly to form a trigger end interrupting the movement of the balls inserted into the holders in the radial direction, the trigger button releasing the interruption of the trigger end when the piston shaft is slid in the forward direction; a first elastic pressing unit for pressing the piston in the forward direction; and a second elastic pressing unit for pressing the trigger button in the backward direction.Thus, the needleless injector can have a simplified structure to improve the use convenience thereof.
    • 无针注射器技术领域本发明涉及无针注射器。 无针注射器包括:活塞轴,其包括在其圆周方向上的外表面上的多个保持器; 气缸组件,其沿前后方向可滑动地容纳和支撑活塞轴; 多个滚珠,其容纳在所述滚筒组件中并且设置在所述活塞轴周围,所述多个滚珠可在径向移动并且当所述活塞轴向后移动时插入所述多个保持器中; 触发按钮,其可滑动地联接到所述气缸组件的后端以形成触发端,其中断所述径向上插入所述保持器中的所述滚珠的运动,所述触发按钮在所述活塞轴滑动时释放所述触发端的中断 前进方向 第一弹性按压单元,用于向前按压活塞; 以及用于沿向后方向按压触发按钮的第二弹性按压单元。 因此,无针注射器可以具有简化的结构以改善其使用便利性。
    • 6. 发明授权
    • Master mold, master mold fabrication method, and method for fabricating liquid crystal display device using the same
    • 主模具,母模制造方法以及使用其制造液晶显示装置的方法
    • US08003023B2
    • 2011-08-23
    • US11477909
    • 2006-06-30
    • Gyoo-Chul JoJin-Wuk KimChang-Hee Lee
    • Gyoo-Chul JoJin-Wuk KimChang-Hee Lee
    • B32B15/04G03C11/22G02F1/13
    • H01L27/1288H01L27/1214
    • A method for fabricating a liquid crystal display (LCD) device wherein a photolithography technique is replaced by soft lithography is disclosed. The method includes: forming a thin film transistor array substrate; forming a color filter substrate; bonding the thin film transistor array substrate and the color filter substrate; and applying a liquid crystal between the thin film transistor array substrate and the color filter substrate, wherein at least one of the forming the thin film transistor array substrate and the forming the color filter substrate includes a pattern forming method using a soft mold. The pattern forming method may be a soft lithography process that includes: contacting a soft mold having a particular pattern with a surface of a buffer layer and applying a constant heat to the soft mold and buffer layer to transfer the particular pattern onto the buffer layer.
    • 公开了一种通过软光刻替代光刻技术的液晶显示(LCD)器件的制造方法。 该方法包括:形成薄膜晶体管阵列基板; 形成滤色器基板; 接合薄膜晶体管阵列基板和滤色器基板; 并且在薄膜晶体管阵列基板和滤色器基板之间施加液晶,其中形成薄膜晶体管阵列基板和形成滤色器基板的至少一个包括使用软模的图案形成方法。 图案形成方法可以是软光刻工艺,其包括:使具有特定图案的软模具与缓冲层的表面接触,并向软模和缓冲层施加恒定的热量以将特定图案转移到缓冲层上。
    • 7. 发明申请
    • Multiple Star Wavelength Division Multiplexing Passive Optical Networks Using a Wavelength Assignment Method
    • 使用波长分配方法的多星波分复用无源光网络
    • US20100046945A1
    • 2010-02-25
    • US12087034
    • 2006-12-05
    • Chang-Hee LeeSang-Mook LeeSil-Gu Mun
    • Chang-Hee LeeSang-Mook LeeSil-Gu Mun
    • H04J14/00
    • H04J14/0246H04J14/0226H04J14/0247H04J14/025H04J14/0252H04J14/0257H04J14/0282
    • The present invention discloses a multiple star wavelength division multiplexing passive optical network system using a wavelength assignment method. In a multiple star wavelength division multiplexing passive optical network system using a wavelength assignment method according to the present invention, only one WDM-PON system can provide services for a plurality of subscribers who is distributed in a wide range of area through multiple starring, by setting one or more band for transmitting up-stream signals as an up-stream basic band and one or more band for transmitting down-stream signals as a down stream basic band, respectively, and by dividing each of the up-stream basic band and the down stream basic band into a plurality of wavelength sub-bands and assigning the divided sub-bands to different areas using a wavelength division multiplexer/de-multiplexer which splits a band into two or more sub-bands.
    • 本发明公开了一种使用波长分配方法的多星波分复用无源光网络系统。 在使用根据本发明的波长分配方法的多星波分复用无源光网络系统中,只有一个WDM-PON系统可以通过多重主播向广泛范围的多个用户提供服务, 设置一个或多个频带,用于发送上行信号作为上行基本频带,以及一个或多个频带,用于发送下行流信号作为下行基本频带,并通过划分每个上行基本频带和 下行基本频带转换为多个波长子带,并使用将频带分割成两个或更多个子带的波分复用器/去多路复用器将分割的子带分配给不同的区域。