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1. 发明授权

US4714047A Method and device for forming ultrafine particle film of compound 失效
标题翻译：用于形成化合物超细颗粒膜的方法和装置
公开(公告)号：US4714047A
公开(公告)日：1987-12-22
申请号：US853761
申请日：1986-04-18
申请人： Hirotane Ikeda , Tadashi Hattori , Minoru Ohta , Shinichi Mukainakano
发明人： Hirotane Ikeda , Tadashi Hattori , Minoru Ohta , Shinichi Mukainakano
IPC分类号： C23C14/24 , B01J12/02 , B01J19/00 , B22F9/12 , C01B13/20 , C01G19/02 , C23C14/00 , C23C16/40 , C23C14/08 , C23C14/26
CPC分类号： C01B13/20 , C23C14/0021
摘要： A method for forming an ultrafine particle film of compound includes the steps of evacuating a vessel provided with an evaporation source in its bottom portion, by which a material to be evaporated is retained, and a base plate in its upper portion, on which ultrafine particles of compound are to be deposited, supplying a reactive gas into the evacuated vessel, evaporating the retained material by heating the evaporation source and making the material interact with the reactive gas to form ultrafine particles of compound and depositing the formed ultrafine particles of compound on the base plate. The reactive gas is directly supplied to an interaction area adjacent to the evaporation source, in which the evaporated material concentrically exists. And a device for forming a ultrafine particle film of compound has a vessel for forming a reactive gas atmosphere, an evaporation source for retaining and heating a material to be evaporated, which is provided in the bottom portion within the vessel, a base plate on which ultrafine particles of compound are to be deposited and which is provided in the upper portion within the vessel so as to be opposed to the evaporation source in the vertical direction, and a gas introducing pipe for supplying a reactive gas into the vessel, which has a gas injection port positioned in an interaction area adjacent to the evaporation source.
摘要翻译：用于形成化合物超细颗粒膜的方法包括以下步骤：在其底部排出具有蒸发源的容器，通过该容器保留待蒸发的材料;以及在其上部的基板，在其上具有超细颗粒的化合物沉积，将反应性气体供应到抽空的容器中，通过加热蒸发源蒸发保留的材料，并使材料与反应性气体相互作用以形成化合物的超微粒子，并将形成的超微粒子化合物沉积在底盘。反应气体直接供应到与蒸发源相邻的相互作用区域，其中同时存在蒸发的材料。并且，用于形成化合物的超细颗粒膜的装置具有用于形成反应性气体气氛的容器，用于保持和加热待蒸发的材料的蒸发源，其设置在容器内的底部中，基板上要沉积化合物的超细颗粒，并且其设置在容器内的上部，以便在垂直方向上与蒸发源相对;以及气体导入管，用于将反应性气体供应到容器中，该气体导入管具有气体注入口位于与蒸发源相邻的相互作用区域中。

2. 发明授权

US4434753A Ignition apparatus for internal combustion engine 失效
标题翻译：内燃机点火装置
公开(公告)号：US4434753A
公开(公告)日：1984-03-06
申请号：US378717
申请日：1982-05-17
申请人： Shinichi Mukainakano , Tadashi Hattori , Minoru Nishida , Toru Mizuno , Tukasa Goto
发明人： Shinichi Mukainakano , Tadashi Hattori , Minoru Nishida , Toru Mizuno , Tukasa Goto
IPC分类号： F02B45/08 , F02P23/04 , F02B23/00 , F02P1/00
CPC分类号： F02B45/08 , F02P23/04 , Y02T10/34
摘要： An ignition apparatus for an internal combustion engine comprises an intake path supplying a mixture of air and fuel into the combustion chamber of the engine, a particle supplying unit having an ejection port opening into the combustion chamber for supplying minute particles of a material which is not the fuel and has a high light absorption factor, and a light source radiating a laser beam through a light focusing unit toward a suitably selected position in the internal space of the combustion chamber, so that the laser beam can strike the minute particles of high light absorption factor supplied from the particle supplying unit thereby producing a torch for igniting the air-fuel mixture.
摘要翻译：一种用于内燃机的点火装置，包括将空气和燃料的混合物供给到发动机的燃烧室中的进气路径，具有通向燃烧室的喷射口的颗粒供给单元，用于供给不是所述燃料具有高的光吸收系数，以及光源，其通过聚光单元朝向所述燃烧室的内部空间中的适当选择的位置照射激光束，使得所述激光束能够撞击所述高光的微小颗粒从颗粒供应单元供应的吸收因子，从而产生用于点燃空气 - 燃料混合物的火炬。

3. 发明授权

US4416226A Laser ignition apparatus for an internal combustion engine 失效
标题翻译：一种用于内燃机的激光点火装置
公开(公告)号：US4416226A
公开(公告)日：1983-11-22
申请号：US383835
申请日：1982-06-01
申请人： Minoru Nishida , Tadashi Hattori , Shinichi Mukainakano , Toru Mizuno , Tukasa Goto
发明人： Minoru Nishida , Tadashi Hattori , Shinichi Mukainakano , Toru Mizuno , Tukasa Goto
IPC分类号： F02P9/00 , F02P23/04 , F02P23/00
CPC分类号： F02P9/007 , F02P23/04
摘要： A laser ignition apparatus includes a laser oscillator which generates at least two successive pulse-shaped laser beams during each compression stroke of the engine. A first pulse-shaped laser beam is generated by a Q switching action of the laser oscillator and thus has a high peak output and a second pulse-shaped laser beam is generated without the Q switching action and has a low peak output but a larger pulse duration than the first laser beam. The first and second pulse-shaped laser beams are guided and directed into the combustion chamber of the engine and the first laser beam of a high energy density causes the breakdown of the air-fuel mixture in the combustion chamber to develop a plasma and the second laser beam further increases the energy of the plasma thereby to ensure the setting fire of the air-fuel mixture.
摘要翻译：激光点火装置包括激光振荡器，其在发动机的每个压缩冲程期间产生至少两个相继的脉冲形激光束。通过激光振荡器的Q切换动作产生第一脉冲形激光束，因此具有高峰值输出，并且产生第二脉冲形状的激光束而没有Q开关动作，并具有低峰值输出但较大的脉冲持续时间比第一激光束。第一和第二脉冲激光束被引导并引导到发动机的燃烧室中，并且高能量密度的第一激光束导致燃烧室中的空气 - 燃料混合物的破坏以形成等离子体，而第二激光激光束进一步增加等离子体的能量，从而确保空气 - 燃料混合物的点燃。

4. 发明授权

US4523552A Ignition system for engine 失效
标题翻译：发动机点火系统
公开(公告)号：US4523552A
公开(公告)日：1985-06-18
申请号：US489382
申请日：1983-04-28
申请人： Shinichi Mukainakano , Tadashi Hattori , Minoru Nishida , Toru Mizuno , Tukasa Goto
发明人： Shinichi Mukainakano , Tadashi Hattori , Minoru Nishida , Toru Mizuno , Tukasa Goto
IPC分类号： F02P23/04
CPC分类号： F02P23/04
摘要： An ignition device for use with internal combustion engines is adapted for conducting a light beam into the combustion chamber of the engine to ignite a fuel-air mixture. The ignition device includes a light emission apparatus opened to the combustion chamber to emit a light beam into the chamber, and a particle supply apparatus disposed in opposed relation with the light emission apparatus for supplying into the combustion chamber particles of a high light absorption index separately from the fuel-air mixture. The particles from the particle supply apparatus are emitted along the optical axis of the light beam into the combustion chamber and are heated at a position suitable for ignition of the fuel-air mixture within the combustion chamber to serve as an ignition source.
摘要翻译：用于内燃机的点火装置适于将光束导入发动机的燃烧室中以点燃燃料 - 空气混合物。点火装置包括向燃烧室开口以向腔室内发射光束的发光装置以及与发光装置相对设置的颗粒供给装置，用于分别向燃烧室供给高光吸收指数的颗粒从燃油混合物。来自颗粒供应装置的颗粒沿着光束的光轴发射到燃烧室中，并且在适于燃烧室内的燃料 - 空气混合物点燃的位置被加热以用作点火源。

5. 发明授权

US07045879B2 Silicon carbide semiconductor device having enhanced carrier mobility 有权
标题翻译：具有增强的载流子迁移率的碳化硅半导体器件
公开(公告)号：US07045879B2
公开(公告)日：2006-05-16
申请号：US10744071
申请日：2003-12-24
申请人： Yoshiyuki Hisada , Eiichi Okuno , Yoshihito Mitsuoka , Shinji Amano , Takeshi Endo , Shinichi Mukainakano , Ayahiko Ichimiya
发明人： Yoshiyuki Hisada , Eiichi Okuno , Yoshihito Mitsuoka , Shinji Amano , Takeshi Endo , Shinichi Mukainakano , Ayahiko Ichimiya
IPC分类号： H01L31/0312 , H01L31/036
CPC分类号： H01L29/7828 , H01L21/3247 , H01L29/045 , H01L29/1608 , H01L29/41766 , H01L29/66068 , H01L29/78 , H01L29/7802 , H01L29/7838
摘要： The principal surface of a p-type SiC substrate (1) is formed of a face intersecting (0001) Si-face at 10 to 16°. An n+ source region (2) and an n+ drain region (3) are formed in a surface layer portion at the principal surface of the p-type SiC substrate (1) so as to be separated from each other. A gate electrode (5) is formed on a gate oxide film (4) on the principal surface of the p-type SiC substrate (1).
摘要翻译： p型SiC衬底（1）的主表面由10-16度的与（0001）Si面相交的面形成。在p型SiC衬底的主表面上的表面层部分形成有n + +源极区（2）和n + +漏极区（3） 1）以便彼此分离。栅极电极（5）形成在p型SiC衬底（1）的主表面上的栅氧化膜（4）上。

6. 发明授权

US08173212B2 Method for manufacturing carbon nano tube 有权
标题翻译：碳纳米管制造方法
公开(公告)号：US08173212B2
公开(公告)日：2012-05-08
申请号：US12081800
申请日：2008-04-22
申请人： Hisayoshi Oshima , Shinichi Mukainakano
发明人： Hisayoshi Oshima , Shinichi Mukainakano
IPC分类号： C23C16/00
CPC分类号： B82Y40/00 , B82Y30/00 , C01B32/162 , C30B25/00 , C30B29/02 , C30B29/602 , Y10S977/843
摘要： A method for manufacturing a carbon nano tube by a CVD method includes: supplying a carbon atom to a catalyzer for forming the carbon nano tube; and controlling an amount of carbon supply with time. In this method, super saturation of the carbon atom in the catalyzer is controlled appropriately. Thus, a caulking layer is prevented from being formed on the catalyzer, and therefore, the carbon nano tube having a sufficient length is obtained.
摘要翻译：通过CVD法制造碳纳米管的方法包括：向用于形成碳纳米管的催化剂供给碳原子; 并随时间控制碳供应量。在该方法中，适当地控制催化剂中碳原子的过饱和。因此，可以防止在催化剂上形成填缝层，因此得到具有足够长度的碳纳米管。

7. 发明授权

US08084011B2 Method and apparatus for manufacturing carbon nanotube 有权
标题翻译：制造碳纳米管的方法和装置
公开(公告)号：US08084011B2
公开(公告)日：2011-12-27
申请号：US12000089
申请日：2007-12-07
申请人： Yoshinobu Suzuki , Shinichi Mukainakano , Kenji Okeyui , Toshiyuki Morishita , Hisayoshi Ooshima
发明人： Yoshinobu Suzuki , Shinichi Mukainakano , Kenji Okeyui , Toshiyuki Morishita , Hisayoshi Ooshima
IPC分类号： D01C5/00
CPC分类号： B82Y30/00 , B82Y40/00 , C01B32/15 , Y10S977/842 , Y10S977/843
摘要： A carbon nanotube manufacturing method wherein a catalyst is heated in a reaction chamber while the reaction chamber is filled with argon gas containing hydrogen. When a predetermined temperature is reached in the reaction chamber, the reaction chamber is evacuated. Then a raw material gas as a carbon source is charged and sealed in the reaction chamber whereupon the synthesis of carbon nanotube begins. Subsequently, when a condition in which the synthesis of carbon nanotubes has proceeded to a predetermined level is detected, gases in the reaction chamber are exhausted. Then, the raw material gas is changed and sealed in the reaction tube again. Thereafter, the charging (synthesizing) operation and the exhausting operation are repeated until the carbon nanotube with a desired film thickness are synthesized. A carbon nanotube manufacturing apparatus is also disclosed.
摘要翻译：一种碳纳米管制造方法，其中在反应室中填充含有氢的氩气的同时，在反应室中加热催化剂。当在反应室中达到预定温度时，将反应室抽真空。然后将作为碳源的原料气体充入并密封在反应室中，由此合成碳纳米管。随后，当检测到碳纳米管的合成进行到预定水平的条件时，反应室中的气体被排出。然后，将原料气体再次变更并密封在反应管中。此后，重复充电（合成）操作和排气操作，直到合成具有所需膜厚度的碳纳米管。还公开了一种碳纳米管制造装置。

8. 发明申请

US20100278717A1 Method and apparatus for manufacturing carbon nanotube 有权
标题翻译：制造碳纳米管的方法和装置
公开(公告)号：US20100278717A1
公开(公告)日：2010-11-04
申请号：US12000089
申请日：2007-12-07
申请人： Yoshinobu Suzuki , Shinichi Mukainakano , Kenji Okeyui , Toshiyuki Morishita , Hisayoshi Ooshima
发明人： Yoshinobu Suzuki , Shinichi Mukainakano , Kenji Okeyui , Toshiyuki Morishita , Hisayoshi Ooshima
IPC分类号： D01F9/12 , C23C16/26 , C23C16/52
CPC分类号： B82Y30/00 , B82Y40/00 , C01B32/15 , Y10S977/842 , Y10S977/843
摘要： A carbon nanotube manufacturing method wherein a catalyst is heated in a reaction chamber while the reaction chamber is filled with argon gas containing hydrogen. When a predetermined temperature is reached in the reaction chamber, the reaction chamber is evacuated. Then a raw material gas as a carbon source is charged and sealed in the reaction chamber whereupon the synthesis of carbon nanotube begins. Subsequently, when a condition in which the synthesis of carbon nanotubes has proceeded to a predetermined level is detected, gases in the reaction chamber are exhausted. Then, the raw material gas is changed and sealed in the reaction tube again. Thereafter, the charging (synthesizing) operation and the exhausting operation are repeated until the carbon nanotube with a desired film thickness are synthesized. A carbon nanotube manufacturing apparatus is also disclosed
摘要翻译：一种碳纳米管制造方法，其中在反应室中填充含有氢的氩气的同时，在反应室中加热催化剂。当在反应室中达到预定温度时，将反应室抽真空。然后将作为碳源的原料气体充入并密封在反应室中，由此合成碳纳米管。随后，当检测到碳纳米管的合成进行到预定水平的条件时，反应室中的气体被排出。然后，将原料气体再次变更并密封在反应管中。此后，重复充电（合成）操作和排气操作，直到合成具有所需膜厚度的碳纳米管。还公开了一种碳纳米管制造装置

9. 发明申请

US20090011128A1 Method for manufacturing carbon nano tube 有权
标题翻译：碳纳米管制造方法
公开(公告)号：US20090011128A1
公开(公告)日：2009-01-08
申请号：US12081800
申请日：2008-04-22
申请人： Hisayoshi Oshima , Shinichi Mukainakano
发明人： Hisayoshi Oshima , Shinichi Mukainakano
IPC分类号： C23C16/26
CPC分类号： B82Y40/00 , B82Y30/00 , C01B32/162 , C30B25/00 , C30B29/02 , C30B29/602 , Y10S977/843
摘要： A method for manufacturing a carbon nano tube by a CVD method includes: supplying a carbon atom to a catalyzer for forming the carbon nano tube; and controlling an amount of carbon supply with time. In this method, super saturation of the carbon atom in the catalyzer is controlled appropriately. Thus, a caulking layer is prevented from being formed on the catalyzer, and therefore, the carbon nano tube having a sufficient length is obtained.
摘要翻译：通过CVD法制造碳纳米管的方法包括：向用于形成碳纳米管的催化剂供给碳原子; 并随时间控制碳供应量。在该方法中，适当地控制催化剂中碳原子的过饱和。因此，可以防止在催化剂上形成填缝层，因此得到具有足够长度的碳纳米管。

10. 发明授权

US06589337B2 Method of producing silicon carbide device by cleaning silicon carbide substrate with oxygen gas 有权
公开(公告)号：US06589337B2
公开(公告)日：2003-07-08
申请号：US09946140
申请日：2001-09-05
申请人： Yoshiyuki Hisada , Shinichi Mukainakano , Takeshi Hasegawa , Ayahiko Ichimiya , Tomohiro Aoyama , Kiyoshige Kato
发明人： Yoshiyuki Hisada , Shinichi Mukainakano , Takeshi Hasegawa , Ayahiko Ichimiya , Tomohiro Aoyama , Kiyoshige Kato
IPC分类号： C30B2502
CPC分类号： H01L21/049 , C30B29/36 , C30B33/00 , H01L21/0445 , H01L29/1608
摘要： In a process of producing a SiC device, a Si layer is formed on the surface of a SiC substrate, and the Si layer is removed from the surface of the SiC substrate by supplying oxygen gas to the Si layer in a high ambient temperature and a low ambient pressure. The pressure is set at 1×10−2 to 1×10−6 Pa. Thus a cleaned surface of the SiC substrate, not contaminated by carbon and the like in atmospheric air, can be provided. Preferably, the oxygen pressure and temperature are set at about 10−6 Pa and 1000° C. for removing the Si layer. Thereafter, the oxygen is further supplied to raise the pressure to about 104 Pa to form an oxide film on the cleaned SiC substrate. Thus, the SiC substrate is cleaned and then formed with the oxide layer in the same chamber by changing the ambient pressure but without changing the ambient temperature.

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