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    • 1. 发明授权
    • Particle measuring method and particle measuring apparatus
    • 粒子测量方法和粒子测量仪器
    • US07508518B2
    • 2009-03-24
    • US12078172
    • 2008-03-27
    • Akitake TamuraKaoru FujiharaTeruyuki Hayashi
    • Akitake TamuraKaoru FujiharaTeruyuki Hayashi
    • G01N21/00G01N21/55
    • G01N15/06G01N1/42G01N2015/0693
    • The present invention relates to a particle measuring method for irradiating light to a surface of a substrate to scatter the light so as to measure a condition of particles on the substrate based on the scattered light. The particle measuring method according to the present invention comprises the steps of: heating a certain liquid to obtain a steam; supplying the steam onto a substrate so that a content of the steam is absorbed by each particle, while a temperature of the substrate is maintained in such a manner that the steam does not condense on the substrate; cooling the substrate before the particle dries so that the content absorbed by the particle is solidified, while preventing generation of solidified substance on regions of the surface of the substrate to which no particle adheres; and irradiating light to the substrate to scatter the light and detecting the scattered light, under a condition in which the content absorbed by the particle has been solidified.
    • 本发明涉及一种用于将光照射到基板的表面以散射光以便基于散射光测量基板上的颗粒的状态的颗粒测量方法。 根据本发明的颗粒测量方法包括以下步骤:加热某些液体以获得蒸汽; 将蒸汽供给到基板上,使得蒸汽的含量被每个颗粒吸收,同时保持基板的温度使得蒸汽不会在基板上冷凝; 在颗粒干燥之前冷却基板,使得由颗粒吸收的内容物固化,同时防止在没有颗粒粘附的基材表面的区域上产生固化物质; 并且在颗粒吸收的内容物固化的条件下,向基板照射光以散射光并检测散射光。
    • 2. 发明申请
    • Particle measuring method and particle measuring apparatus
    • 粒子测量方法和粒子测量仪器
    • US20080239283A1
    • 2008-10-02
    • US12078172
    • 2008-03-27
    • Akitake TamuraKaoru FujiharaTeruyuki Hayashi
    • Akitake TamuraKaoru FujiharaTeruyuki Hayashi
    • G01N1/00
    • G01N15/06G01N1/42G01N2015/0693
    • The present invention relates to a particle measuring method for irradiating light to a surface of a substrate to scatter the light so as to measure a condition of particles on the substrate based on the scattered light. The particle measuring method according to the present invention comprises the steps of: heating a certain liquid to obtain a steam; supplying the steam onto a substrate so that a content of the steam is absorbed by each particle, while a temperature of the substrate is maintained in such a manner that the steam does not condense on the substrate; cooling the substrate before the particle dries so that the content absorbed by the particle is solidified, while preventing generation of solidified substance on regions of the surface of the substrate to which no particle adheres; and irradiating light to the substrate to scatter the light and detecting the scattered light, under a condition in which the content absorbed by the particle has been solidified.
    • 本发明涉及一种用于将光照射到基板的表面以散射光以便基于散射光测量基板上的颗粒的状态的颗粒测量方法。 根据本发明的颗粒测量方法包括以下步骤:加热某些液体以获得蒸汽; 将蒸汽供给到基板上,使得蒸汽的含量被每个颗粒吸收,同时保持基板的温度使得蒸汽不会在基板上冷凝; 在颗粒干燥之前冷却基板,使得由颗粒吸收的内容物固化,同时防止在没有颗粒粘附的基材表面的区域上产生固化物质; 并且在颗粒吸收的内容物固化的条件下,向基板照射光以散射光并检测散射光。
    • 3. 发明授权
    • Pattern forming method, semiconductor device manufacturing apparatus and storage medium
    • 图案形成方法,半导体器件制造装置和存储介质
    • US08008211B2
    • 2011-08-30
    • US12343968
    • 2008-12-24
    • Akitake TamuraTeruyuki HayashiKaoru Fujihara
    • Akitake TamuraTeruyuki HayashiKaoru Fujihara
    • H01L21/461
    • H01L21/31144H01L21/0337H01L27/1052H01L27/115H01L27/11521
    • A pattern forming method includes (a) forming pairs of deposits on sidewalls of mask portions in first mask patterns by forming a thin film thereon, etching it to leave deposits, and exposing a top surface of a second-layer film between the deposits; (b) forming second mask patterns formed of mask portions corresponding to the deposits by removing the mask portion, plasma etching the second-layer film, and removing the deposits; (c) forming a thin film thereon, and etching it to leave deposits on sidewalls of mask portions facing each other and to expose a third-layer film between the deposits while leaving deposits between adjacent mask portions; and (d) forming grooves thereon by removing the second mask portion, and etching off the third-layer film.
    • 图案形成方法包括:(a)在第一掩模图案的掩模部分的侧壁上形成一对沉积物,在其上形成薄膜,蚀刻它以留下沉积物,并在沉积物之间暴露第二层膜的顶表面; (b)通过去除掩模部分形成对应于沉积物的掩模部分形成的第二掩模图案,等离子体蚀刻第二层膜并除去沉积物; (c)在其上形成薄膜,并对其进行蚀刻以在掩模部分的彼此面对的侧壁上留下沉积物,并在沉积物之间露出第三层膜,同时在相邻的掩模部分之间留下沉积物; 和(d)通过去除第二掩模部分在其上形成凹槽,并蚀刻掉第三层膜。
    • 4. 发明申请
    • SUBSTRATE INSPECTION METHOD, SUBSTRATE INSPECTION APPARATUS AND STORAGE MEDIUM
    • 基板检查方法,基板检查装置和存储介质
    • US20090206253A1
    • 2009-08-20
    • US12368645
    • 2009-02-10
    • Misako SAITOTeruyuki HayashiAkitake TamuraKaoru Fujihara
    • Misako SAITOTeruyuki HayashiAkitake TamuraKaoru Fujihara
    • G01N23/00
    • G01N23/2251G01N2223/6116
    • In a substrate inspection method, it is inspected whether the metal electrode is electrically connected to the conductive film by radiating electron beams onto a surface of the substrate to detect the number of secondary electrons emitted therefrom. The method includes placing the substrate onto a mounting table; inspecting the metal electrode by radiating electron beams onto an area of the substrate including the metal electrode at a first acceleration voltage and detecting secondary electrons emitted from the metal electrode; and radiating electron beams onto an area of the substrate not including the metal electrode at a second acceleration voltage. The second acceleration voltage is set such that a difference between the number of electrons entering the insulation film and the number of secondary electrons emitted from the insulation film is smaller at the second acceleration voltage than at the first acceleration voltage.
    • 在基板检查方法中,通过将电子束辐射到基板的表面上来检查金属电极是否与导电膜电连接以检测从其发射的二次电子的数量。 该方法包括将基板放置在安装台上; 通过以第一加速电压将电子束辐射到包括金属电极的基板的区域上并检测从金属电极发射的二次电子来检查金属电极; 并且以第二加速电压将电子束辐射到不包括金属电极的基板的区域上。 第二加速电压被设定为使得进入绝缘膜的电子数与从绝缘膜发射的二次电子的数量之间的差在第二加速电压时比在第一加速电压下小。
    • 7. 发明授权
    • Heat treating method and device
    • 热处理方法及装置
    • US5445521A
    • 1995-08-29
    • US250379
    • 1994-05-27
    • Eiji YamaguchiKaoru FujiharaTakenobu MatsuoHirofumi Kitayama
    • Eiji YamaguchiKaoru FujiharaTakenobu MatsuoHirofumi Kitayama
    • C23C16/44C23C16/455C23C16/52C30B25/14F27D19/00F27D5/00
    • C23C16/45557C23C16/4401C23C16/52C30B25/14F27D19/00F27D2019/0009F27D2019/0068
    • A heat treating device including a pressure detecting unit for outputting an output signal when a pressure in a heat processing furnace becomes a set value, an air release pipe having a first valve and a check valve, a differential pressure gauge shut off by a second valve in terms of pressure from the interior of the heat processing furnace, and an air feed pipe having a third valve. One ends of each of the air release pipe and the air feed pipe is connected respectively to the heat processing furnace and the other ends opened in air. In such arrangement, after processing gases are evacuated from the heat processing furnace, an inert gas is fed. Then when an internal pressure of the furnace becomes near an air pressure, the first valve is opened in response to the output signal of the pressure detecting unit to make the internal pressure of the heat processing furnace a little higher than the air pressure. When a differential pressure value of the differential pressure gauge is below a set value, the third value is opened to communicate the interior of the heat processing furnace with air through the air feed pipe. Then the cap closing the opening of the heat processing furnace is opened.
    • 一种热处理装置,包括:当热处理炉中的压力变为设定值时输出输出信号的压力检测单元;具有第一阀和止回阀的排气管,由第二阀关闭的差压表 在来自热处理炉的内部的压力和具有第三阀的进气管。 每个排气管和供气管的一端分别连接到热处理炉,另一端在空气中敞开。 在这样的布置中,在处理气体从热处理炉抽出之后,供给惰性气体。 然后,当炉子的内部压力接近空气压力时,响应于压力检测单元的输出信号打开第一阀门,使得热处理炉的内部压力比空气压力高一点。 当差压表的差压值低于设定值时,打开第三值,以使热处理炉的内部通过供气管与空气相通。 然后关闭热处理炉的开口的盖子打开。