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1.发明申请AlxGa(1-x)N SINGLE CRYSTAL, METHOD OF PRODUCING AlxGa(1-x)N SINGLE CRYSTAL, AND OPTICAL COMPONENT 审中-公开Al x Ga(1-x)N单晶,生产Al x Ga(1-x)N单晶和光学元件的方法公开(公告)号:US20110104438A1
公开(公告)日:2011-05-05
申请号:US13001749
申请日:2009-06-25
申请人: Satoshi Arakawa , Takashi Sakurada , Yoshiyuki Yamamoto , Issei Satoh , Keisuke Tanizaki , Hideaki Nakahata , Naho Mizuhara , Michimasa Miyanaga
发明人: Satoshi Arakawa , Takashi Sakurada , Yoshiyuki Yamamoto , Issei Satoh , Keisuke Tanizaki , Hideaki Nakahata , Naho Mizuhara , Michimasa Miyanaga
CPC分类号: G02B1/02 , C30B23/025 , C30B29/403 , C30B29/406 , G02B13/143 , Y10T428/24355 , Y10T428/2973
摘要: A method of producing an AlxGa(1-x)N (0
摘要翻译: 制造Al x Ga(1-x)N(0
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2.发明授权AlxGa(1-x)N single crystal, method of producing AlxGa(1-x)N single crystal, and optical lens 失效Al x Ga(1-x)N单晶,Al x Ga(1-x)N单晶的制造方法,光学透镜公开(公告)号:US08363326B2
公开(公告)日:2013-01-29
申请号:US13001723
申请日:2009-06-25
申请人: Satoshi Arakawa , Takashi Sakurada , Yoshiyuki Yamamoto , Issei Satoh , Keisuke Tanizaki , Hideaki Nakahata , Naho Mizuhara , Michimasa Miyanaga
发明人: Satoshi Arakawa , Takashi Sakurada , Yoshiyuki Yamamoto , Issei Satoh , Keisuke Tanizaki , Hideaki Nakahata , Naho Mizuhara , Michimasa Miyanaga
IPC分类号: G02B1/02
CPC分类号: G02B1/02 , C30B23/025 , C30B29/403 , C30B29/406 , G02B3/00 , G02B13/143 , Y10T428/21 , Y10T428/24355
摘要: A method of producing an AlxGa(1-x)N (0
摘要翻译: 制造本发明的Al x Ga(1-x)N(0
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3.发明申请METHOD FOR PRODUCING GROUP III-NITRIDE CRYSTAL AND GROUP III-NITRIDE CRYSTAL 审中-公开生产III族氮化物晶体和III族氮化物晶体的方法公开(公告)号:US20110110840A1
公开(公告)日:2011-05-12
申请号:US13054373
申请日:2009-06-26
申请人: Michimasa Miyanaga , Naho Mizuhara , Keisuke Tanizaki , Issei Satoh , Hideaki Nakahata , Satoshi Arakawa , Yoshiyuki Yamamoto , Takashi Sakurada
发明人: Michimasa Miyanaga , Naho Mizuhara , Keisuke Tanizaki , Issei Satoh , Hideaki Nakahata , Satoshi Arakawa , Yoshiyuki Yamamoto , Takashi Sakurada
CPC分类号: C30B29/403 , C30B23/025 , C30B25/18
摘要: A method for producing a group III-nitride crystal having a large thickness and high quality and a group III-nitride crystal are provided. A method for producing a group III-nitride crystal 13 includes the following steps: A underlying substrate 11 having a major surface 11a tilted toward the direction with respect to the (0001) plane is prepared. The group III-nitride crystal 13 is grown by vapor-phase epitaxy on the major surface 11a of the underlying substrate 11. The major surface 11a of the underlying substrate 11 is preferably a plane tilted at an angle of −5° to 5° from the {01-10} plane.
摘要翻译: 提供了具有大厚度和高质量的III族氮化物晶体和III族氮化物晶体的制造方法。 制备III族氮化物晶体13的方法包括以下步骤:制备具有相对于(0001)面朝向<1-100>方向倾斜的主表面11a的下面的基底11。 III族氮化物晶体13通过在下面的基底11的主表面11a上的气相外延生长。下面的基底11的主表面11a优选是以-5°至5°的角度倾斜的平面 {01-10}飞机。
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4.发明申请AlxGa(1-x)N SINGLE CRYSTAL, METHOD OF PRODUCING AlxGa(1-x)N SINGLE CRYSTAL, AND OPTICAL LENS 失效Al x Ga(1-x)N单晶,生产Al x Ga(1-x)N单晶和光学透镜的方法公开(公告)号:US20110109973A1
公开(公告)日:2011-05-12
申请号:US13001723
申请日:2009-06-25
申请人: Satoshi Arakawa , Takashi Sakurada , Yoshiyuki Yamamoto , Issei Satoh , Keisuke Tanizaki , Hideaki Nakahata , Naho Mizuhara , Michimasa Miyanaga
发明人: Satoshi Arakawa , Takashi Sakurada , Yoshiyuki Yamamoto , Issei Satoh , Keisuke Tanizaki , Hideaki Nakahata , Naho Mizuhara , Michimasa Miyanaga
CPC分类号: G02B1/02 , C30B23/025 , C30B29/403 , C30B29/406 , G02B3/00 , G02B13/143 , Y10T428/21 , Y10T428/24355
摘要: A method of producing an AlxGa(1-x)N (0
摘要翻译: 制造本发明的Al x Ga(1-x)N(0
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5.发明申请公开(公告)号:US20110076453A1
公开(公告)日:2011-03-31
申请号:US12994767
申请日:2009-05-25
申请人: Satoshi Arakawa , Takashi Sakurada , Michimasa Miyanaga , Keisuke Tanizaki , Naho Mizuhara , Issei Satoh , Hideaki Nakahata
发明人: Satoshi Arakawa , Takashi Sakurada , Michimasa Miyanaga , Keisuke Tanizaki , Naho Mizuhara , Issei Satoh , Hideaki Nakahata
IPC分类号: B32B3/00 , B32B5/00 , C04B35/581
CPC分类号: C30B29/403 , C30B23/02 , C30B25/02 , H01L21/02378 , H01L21/0254 , H01L21/02631 , Y10T428/24355
摘要: Affords an AlxGa1-xN single crystal suitable as an electromagnetic wave transmission body, and an electromagnetic wave transmission body that includes the AlxGa1-xN single crystals.The AlxGa1-xN (0
摘要翻译: 提供适合作为电磁波传播体的Al x Ga 1-x N单晶,以及包含Al x Ga 1-x N单晶的电磁波透过体。 Al x Ga 1-x N(0
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6.发明授权公开(公告)号:US08367577B2
公开(公告)日:2013-02-05
申请号:US12602104
申请日:2009-02-18
申请人: Issei Satoh , Naho Mizuhara , Keisuke Tanizaki , Michimasa Miyanaga , Takashi Sakurada , Yoshiyuki Yamamoto , Hideaki Nakahata
发明人: Issei Satoh , Naho Mizuhara , Keisuke Tanizaki , Michimasa Miyanaga , Takashi Sakurada , Yoshiyuki Yamamoto , Hideaki Nakahata
IPC分类号: C04B35/581
CPC分类号: C30B29/403 , C23C14/0641 , C23C14/28 , C30B23/02
摘要: Flat, thin AlN membranes and methods of their manufacture are made available. An AlN thin film (2) contains between 0.001 wt. % and 10 wt. % additive atomic element of one or more type selected from Group-III atoms, Group-IV atoms and Group-V atoms. Onto a base material (1), the AlN thin film (2) is formable utilizing a plasma generated by setting inside a vacuum chamber a sintered AlN ceramic containing between 0.001 wt. % and 10 wt. % additive atomic element of one or more type selected from Group-III atoms, Group-IV atoms and Group-V atoms, and with the base material having been set within the vacuum chamber, irradiating the sintered AlN ceramic with a laser.
摘要翻译: 扁平,薄的AlN膜及其制造方法可用。 AlN薄膜(2)含有0.001重量% %和10wt。 选自III族原子,IV族原子和V族原子的一种或多种类型的添加剂原子元素。 在基材(1)上,AlN薄膜(2)可利用通过在真空室内设置包含0.001重量%的烧结AlN陶瓷而产生的等离子体, %和10wt。 选自III族原子,IV族原子和V族原子的一种或多种类型的添加剂原子元素,并将基材设置在真空室内,用激光照射烧结的AlN陶瓷。
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7.发明申请公开(公告)号:US20100209622A1
公开(公告)日:2010-08-19
申请号:US12602104
申请日:2009-02-18
申请人: Issei Satoh , Naho Mizuhara , Keisuke Tanizaki , Michimasa Miyanaga , Takashi Sakurada , Yoshiyuki Yamamoto , Hideaki Nakahata
发明人: Issei Satoh , Naho Mizuhara , Keisuke Tanizaki , Michimasa Miyanaga , Takashi Sakurada , Yoshiyuki Yamamoto , Hideaki Nakahata
CPC分类号: C30B29/403 , C23C14/0641 , C23C14/28 , C30B23/02
摘要: Flat, thin AlN membranes and methods of their manufacture are made available.An AlN thin film (2) contains between 0.001 wt. % and 10 wt. % additive atomic element of one or more type selected from Group-III atoms, Group-IV atoms and Group-V atoms. Onto a base material (1), the AlN thin film (2) is formable utilizing a plasma generated by setting inside a vacuum chamber an sintered AlN ceramic containing between 0.001 wt. % and 10 wt. % additive atomic element of one or more type selected from Group-III atoms, Group-IV atoms and Group-V atoms, and with the base material having been set within the vacuum chamber, irradiating the sintered AlN ceramic with a laser.
摘要翻译: 扁平,薄的AlN膜及其制造方法可用。 AlN薄膜(2)含有0.001重量% %和10wt。 选自III族原子,IV族原子和V族原子的一种或多种类型的添加剂原子元素。 在基材(1)上,AlN薄膜(2)可以利用通过在真空室内设置包含0.001重量%的烧结AlN陶瓷而产生的等离子体, %和10wt。 选自III族原子,IV族原子和V族原子的一种或多种类型的添加剂原子元素,并将基材设置在真空室内,用激光照射烧结的AlN陶瓷。
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8.发明申请公开(公告)号:US20100319614A1
公开(公告)日:2010-12-23
申请号:US12668426
申请日:2009-03-06
申请人: Issei Satoh , Naho Mizuhara , Keisuke Tanizaki , Michimasa Miyanaga , Takashi Sakurada , Hideaki Nakahata
发明人: Issei Satoh , Naho Mizuhara , Keisuke Tanizaki , Michimasa Miyanaga , Takashi Sakurada , Hideaki Nakahata
CPC分类号: C30B23/066 , C30B29/403 , H01L21/02378 , H01L21/0254
摘要: A compound semiconductor single-crystal manufacturing device (1) is furnished with: a laser light source (6) making it possible to sublime a source material by directing a laser beam onto the material; a reaction vessel (2) having a laser entry window (5) through which the laser beam output from the laser light source (6) can be transmitted to introduce the beam into the vessel interior, and that is capable of retaining a starting substrate (3) where sublimed source material is recrystallized; and a heater (7) making it possible to heat the starting substrate (3). The laser beam is shone on, to heat and thereby sublime, the source material within the reaction vessel (2), and compound semiconductor single crystal is grown by recrystallizing the sublimed source material onto the starting substrate (3); afterwards the laser beam is employed to separate the compound semiconductor single crystal from the starting substrate (3).
摘要翻译: 化合物半导体单晶制造装置(1)具有:激光光源(6),其可以通过将激光束引导到材料上来升高源材料; 具有激光入口窗口(5)的反应容器(2),从激光光源(6)输出的激光束可以通过激光入口窗口(5)传输,以将光束引入容器内部,并且能够保持起始衬底( 3)升华源材料重结晶; 和加热器(7),使加热起始衬底(3)成为可能。 激光束照射在反应容器(2)内的源材料上,从而升华,通过将升华的源材料再结晶到起始衬底(3)上来生长化合物半导体单晶; 之后使用激光束将化合物半导体单晶与起始衬底(3)分离。
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9.发明授权Compound semiconductor single-crystal manufacturing device and manufacturing method 有权复合半导体单晶制造装置及其制造方法公开(公告)号:US08591653B2
公开(公告)日:2013-11-26
申请号:US12668426
申请日:2009-03-06
申请人: Issei Satoh , Naho Mizuhara , Keisuke Tanizaki , Michimasa Miyanaga , Takashi Sakurada , Hideaki Nakahata
发明人: Issei Satoh , Naho Mizuhara , Keisuke Tanizaki , Michimasa Miyanaga , Takashi Sakurada , Hideaki Nakahata
IPC分类号: C30B21/02
CPC分类号: C30B23/066 , C30B29/403 , H01L21/02378 , H01L21/0254
摘要: A compound semiconductor single-crystal manufacturing device (1) is furnished with: a laser light source (6) making it possible to sublime a source material by directing a laser beam onto the material; a reaction vessel (2) having a laser entry window (5) through which the laser beam output from the laser light source (6) can be transmitted to introduce the beam into the vessel interior, and that is capable of retaining a starting substrate (3) where sublimed source material is recrystallized; and a heater (7) making it possible to heat the starting substrate (3). The laser beam is shone on, to heat and thereby sublime, the source material within the reaction vessel (2), and compound semiconductor single crystal is grown by recrystallizing the sublimed source material onto the starting substrate (3); afterwards the laser beam is employed to separate the compound semiconductor single crystal from the starting substrate (3).
摘要翻译: 化合物半导体单晶制造装置(1)具有:激光光源(6),其可以通过将激光束引导到材料上而使源材料升华; 具有激光入口窗口(5)的反应容器(2),从激光光源(6)输出的激光束可以通过激光入口窗口(5)传输,以将光束引入容器内部,并且能够保持起始衬底( 3)升华源材料重结晶; 和加热器(7),使加热起始衬底(3)成为可能。 激光束照射在反应容器(2)内的源材料上,从而升华,通过将升华的源材料再结晶到起始衬底(3)上来生长化合物半导体单晶; 之后使用激光束将化合物半导体单晶与起始衬底(3)分离。
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公开(公告)号:US20110042684A1
公开(公告)日:2011-02-24
申请号:US12988324
申请日:2009-04-14
申请人: Keisuke Tanizaki , Naho Mizuhara , Michimasa Miyanaga , Issei Satoh , Hideaki Nakahata , Yoshiyuki Yamamoto
发明人: Keisuke Tanizaki , Naho Mizuhara , Michimasa Miyanaga , Issei Satoh , Hideaki Nakahata , Yoshiyuki Yamamoto
CPC分类号: C30B23/002 , C30B23/025 , C30B29/403
摘要: Affords an AlN crystal growth method, and an AlN laminate, wherein AlN of favorable crystalline quality is grown. The AlN crystal growth method is provided with the following steps. To begin with, a source material (17) containing AlN is prepared. A heterosubstrate (11), having a major surface (11a), is prepared. The source material (17) is sublimed to grow AlN crystal so as to cover the major surface (11a) of the heterosubstrate (11), whereby a first layer (12) with a flat face (12a) is formed. The source material (17) is sublimed to form onto the face (12a) of the first layer (12) a second layer (13) made of AlN. The second layer (13) is formed at a higher temperature than is the first layer (12).
摘要翻译: 提供AlN晶体生长方法和AlN层压体,其中生长有利的结晶质量的AlN。 AlN晶体生长方法具有以下步骤。 首先,准备含有AlN的原料(17)。 准备具有主表面(11a)的异基底(11)。 源材料(17)升华以生长AlN晶体以覆盖杂质衬底(11)的主表面(11a),由此形成具有平坦面(12a)的第一层(12)。 源材料(17)升华以形成第一层(12)的由AlN制成的第二层(13)的表面(12a)上。 第二层(13)形成在比第一层(12)更高的温度。
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