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    • 1. 发明授权
    • Fabrication apparatus employing energy beam
    • 采用能量束的制造装置
    • US6015976A
    • 2000-01-18
    • US195254
    • 1998-11-18
    • Masahiro HatakeyamaKatsunori IchikiTakao KatoYotaro HatamuraMasayuki Nakao
    • Masahiro HatakeyamaKatsunori IchikiTakao KatoYotaro HatamuraMasayuki Nakao
    • G03F1/00G03F1/20G03F7/00G03F7/20H01J9/02H01L21/033H01L21/308H01J37/302
    • H01L21/3086G03F7/00G03F7/001G03F7/2065G03F7/70358H01J9/025H01L21/0331H01L21/0337H01J2209/0223
    • Three-dimensional ultra-fine micro-fabricated structures of the order of .mu.m and less are produced for use in advanced optical communication systems and quantum effect devices. Basic components are an energy beam source, a mask member and a specimen stage. The mask member is an independent component, and various combinations of relative movements of the mask member with respect to the beam axis and/or workpiece can be made with high precision to produce curved or slanted surfaces on a workpiece, thereby producing multiple lines or arrays of convex or concave micro-lenses. Other examples of fine-structures include deposition of thin films in a multiple line pattern or in an array pattern. Because of flexibility of fabrication and material, labyrinth seals having curved surfaces with grooved structures can be used as friction reduction devices for bearing components. Fine groove dimensions of the order of nm are possible. Energy beams can be any of fast atomic beams, ion beams, electron beam, laser beams, radiation beams, X-ray beams and radical particle beams. Parallel beams are often used, but when a focused bean is used, a technique of reduced projection imaging can be utilized to produce fine-structures of the order of nm.
    • 产生了数量级小于等于30的数量级的三维超细微结构,用于先进的光通信系统和量子效应器件。 基本组件是能量束源,掩模构件和样品台。 掩模构件是独立的部件,并且可以高精度地制造掩模构件相对于射束轴线和/或工件的相对运动的各种组合,以在工件上产生弯曲或倾斜的表面,由此产生多个线或阵列 的凸或微型微透镜。 精细结构的其他实例包括以多线图案或阵列图案沉积薄膜。 由于制造和材料的灵活性,具有带槽结构的曲面的迷宫式密封件可用作轴承部件的摩擦减小装置。 可以使nm的数量级的细槽尺寸。 能量束可以是快速原子束,离子束,电子束,激光束,辐射束,X射线束和自由基粒子束中的任何一种。 通常使用平行光束,但是当使用聚焦光束时,可以利用减少投影成像的技术来产生nm级数的精细结构。
    • 3. 发明授权
    • Fabrication method with energy beam
    • 能量束的制作方法
    • US5868952A
    • 1999-02-09
    • US617376
    • 1996-03-18
    • Masahiro HatakeyamaKatsunori IchikiTakao KatoYotaro HatamuraMasayuki Nakao
    • Masahiro HatakeyamaKatsunori IchikiTakao KatoYotaro HatamuraMasayuki Nakao
    • G03F1/00G03F1/20G03F7/00G03F7/20H01J9/02H01L21/033H01L21/308B44C1/22
    • H01L21/3086G03F7/00G03F7/001G03F7/2065G03F7/70358H01J9/025H01L21/0331H01L21/0337H01J2209/0223
    • Three-dimensional ultra-fine micro-fabricated structures of the order of .mu.m and less are produced for use in advanced optical communication systems and quantum effect devices. The basic components are an energy beam source, a mask member and a specimen stage. Because the mask member is an independent component, various combinations of relative movements of the mask member with respect to the beam axis and/or workpiece can be made with high precision to produce curved or slanted surfaces on a workpiece, thereby producing a multiple lines or arrays of convex or concave micro-lenses. Other examples of fine-structures include deposition of thin films in a multiple line pattern or in an array pattern. Because of the flexibility of fabrication method and material of fabrication, labyrinth seals having curved surfaces with grooved structures can be used as friction reduction means for bearing components. Fine groove dimensions of the order of nm are possible. Energy beams can be any of fast atomic beams, ion beams, electron beam, laser beams, radiation beams, X-ray beams and radical particle beams. Parallel beams are often used, but when a focused beam is used, a technique of reduced projection imaging can be utilized to produce a fine-structure of the order of nm.
    • 产生了数量级小于等于30的数量级的三维超细微结构,用于先进的光通信系统和量子效应器件。 基本部件是能量束源,掩模构件和样品台。 由于掩模构件是独立的部件,所以可以高精度地制造掩模构件相对于射束轴线和/或工件的相对运动的各种组合,以在工件上产生弯曲或倾斜的表面,从而产生多条线或 阵列的凸或微型微透镜。 精细结构的其他实例包括以多线图案或阵列图案沉积薄膜。 由于制造方法和制造材料的灵活性,具有带槽结构的曲面的迷宫式密封件可用作轴承部件的摩擦减小装置。 可以使nm的数量级的细槽尺寸。 能量束可以是快速原子束,离子束,电子束,激光束,辐射束,X射线束和自由基粒子束中的任何一种。 通常使用平行光束,但是当使用聚焦光束时,可以利用降低投影成像的技术来产生大约数量级的精细结构。
    • 4. 发明授权
    • Fabrication method employing energy beam source
    • 采用能量束源的制造方法
    • US5998097A
    • 1999-12-07
    • US300844
    • 1999-04-28
    • Masahiro HatakeyamaKatsunori IchikiTadasuke KobataYotaro HatamuraMasayuki Nakao
    • Masahiro HatakeyamaKatsunori IchikiTadasuke KobataYotaro HatamuraMasayuki Nakao
    • H01J37/305H01J37/317H05H3/02G03C5/00G21K5/10
    • H05H3/02H01J37/3053H01J37/3178
    • An energy beam source is used in micro-fabrication tasks, such as fabrication of specific patterns, in-situ bonding, repair, connection and disconnection of electrical paths, applicable to semiconductor devices and other micro-sized circuits in integrated circuits. The beam source is made compact so that several sources can be located inside a vacuum vessel and in conjunction with micro-manipulators or micro-movement stages operated under light or an electron microscope. The beam source is provided with at least three electrodes, and by applying a selected voltage, i.e., high frequency voltage, direct current voltage and ground voltage, on each the three electrodes in association with film-forming substance(s), virtually any type of deposit can be formed at any location of a workpiece. Different types of particle beams, such as positive and negative ion beams, a highspeed neutral atomic beam, a radical particle beam, an electron beam can be produced from the beam source by judicious choice of operating-parameters and the film-forming material which may be a process gas or an applied coating. By using the beam source and the method of deposit forming presented, virtually any type of fabrication task can be carried out on any surface and any location of a workpiece in a three-dimensional space.
    • 能量束源用于微加工任务,例如制造特定图案,原位粘合,修复,连接和断开电路径,适用于集成电路中的半导体器件和其他微型尺寸电路。 光束源是紧凑的,使得几个源可以位于真空容器内并且与在微光或电子显微镜下操作的微操纵器或微移动台结合。 光束源设置有至少三个电极,并且通过在与成膜物质相关联的三个电极上的每一个上施加选择的电压,即高频电压,直流电压和接地电压,实际上任何类型 的沉积物可以形成在工件的任何位置。 可以通过明智地选择操作参数和成膜材料,从光束源产生不同类型的粒子束,例如正离子束和负离子束,高速中性原子束,自由基粒子束,电子束, 作为工艺气体或涂覆涂层。 通过使用光束源和沉积物形成方法,几乎​​任何类型的制造任务都可以在三维空间中的工件的任何表面和任何位置上进行。
    • 5. 发明授权
    • Fabrication method employing and energy beam source
    • 采用制造方法和能量束源
    • US5989779A
    • 1999-11-23
    • US544108
    • 1995-10-17
    • Masahiro HatakeyamaKatsunori IchikiTadasuke KobataYotaro HatamuraMasayuki Nakao
    • Masahiro HatakeyamaKatsunori IchikiTadasuke KobataYotaro HatamuraMasayuki Nakao
    • H01J37/305H01J37/317H05H3/02G03C5/00B23K15/00G21K5/10
    • H05H3/02H01J37/3053H01J37/3178
    • An energy beam source is used in micro-fabrication tasks, such as fabrication of specific patterns, in-situ bonding, repair, connection and disconnection of electrical paths, applicable to semiconductor devices and other micro-sized circuits in integrated circuits. The beam source is made compact so that several sources can be located inside a vacuum vessel and in conjunction with micro-manipulators or micro-movement stages operated under light or an electron microscope. The beam source is provided with at least three electrodes, and by applying a selected voltage, i.e., high frequency voltage, direct current voltage and ground voltage, on each the three electrodes in association with film-forming substance(s), virtually any type of deposit can be formed at any location of a workpiece. Different types of particle beams, such as positive and negative ion beams, a highspeed neutral atomic beam, a radical particle beam, an electron beam can be produced from the beam source by judicious choice of operating-parameters and the film-forming material which may be a process gas or an applied coating. By using the beam source and the method of deposit forming presented, virtually any type of fabrication task can be carried out on any surface and any location of a workpiece in a three-dimensional space.
    • 能量束源用于微加工任务,例如制造特定图案,原位粘合,修复,连接和断开电路径,适用于集成电路中的半导体器件和其他微型尺寸电路。 光束源是紧凑的,使得几个源可以位于真空容器内并且与在微光或电子显微镜下操作的微操纵器或微移动台结合。 光束源设置有至少三个电极,并且通过在与成膜物质相关联的三个电极上的每一个上施加选择的电压,即高频电压,直流电压和接地电压,实际上任何类型 的沉积物可以形成在工件的任何位置。 可以通过明智地选择操作参数和成膜材料,从光束源产生不同类型的粒子束,例如正离子束和负离子束,高速中性原子束,自由基粒子束,电子束, 作为工艺气体或涂覆涂层。 通过使用光束源和沉积物形成方法,几乎​​任何类型的制造任务可以在三维空间中的工件的任何表面和任何位置上进行。