-
1.发明授权Vapor-phase growth method, semiconductor manufacturing method and semiconductor device manufacturing method 有权气相生长法,半导体制造方法和半导体器件制造方法公开(公告)号:US07507642B2
公开(公告)日:2009-03-24
申请号:US11747575
申请日:2007-05-11
申请人: Hideo Yamagata , Takeyoshi Koumoto , Kenji Atsuumi , Yoichi Negoro , Tatsushiro Hirata , Takashi Noguchi
发明人: Hideo Yamagata , Takeyoshi Koumoto , Kenji Atsuumi , Yoichi Negoro , Tatsushiro Hirata , Takashi Noguchi
IPC分类号: H01L21/322 , H01L21/22 , H01L21/38
CPC分类号: H01L21/02505 , C30B25/02 , C30B29/52 , H01L21/02381 , H01L21/0245 , H01L21/02488 , H01L21/02502 , H01L21/0251 , H01L21/02532 , H01L21/0262 , H01L21/02636 , H01L29/66242
摘要: In a vapor-phase growth method in which a silicon-germanium mixed crystal layer is deposited on a semiconductor substrate, the vapor-phase growth method comprises a first step of introducing silicon raw material gas into a reaction furnace in such a manner that a silicon raw material gas partial pressure increases in proportion to a time to thereby deposit a first semiconductor layer of a silicon layer on the semiconductor substrate under reduced pressure, a second step of introducing silicon raw material gas and germanium raw material gas into the reaction furnace in such a manner that a desired germanium concentration may be obtained to thereby deposit a second semiconductor layer of a silicon-germanium mixed crystal layer on the first semiconductor layer under reduced pressure and a third step of introducing silicon raw material gas into the reaction furnace under reduced pressure to thereby deposit a third semiconductor layer of a silicon layer on the second semiconductor layer. Thus, there can be obtained a semiconductor layer in which a misfit dislocation can be improved.
摘要翻译: 在半导体基板上沉积硅 - 锗混晶层的气相生长方法中,气相生长方法包括将硅原料气体引入反应炉的第一步骤,即将硅 原料气体分压与时间成比例地增加,从而在半导体衬底上沉积硅层的第一半导体层减压,第二步是将硅原料气体和锗原料气体引入反应炉中 可以获得期望的锗浓度,从而在减压下在第一半导体层上沉积硅 - 锗混合晶体层的第二半导体层,并且在减压下将硅原料气体引入反应炉中的第三步骤 从而在第二半导体层上沉积硅层的第三半导体层。 因此,可以获得其中可以提高失配位错的半导体层。
-
2.发明申请VAPOR-PHASE GROWTH METHOD, SEMICONDUTOR MANUFACTURING METHOD AND SEMICONDUCTOR DEVICE MANUFACTURING METHOD 有权蒸汽相生长方法,半导体制造方法和半导体器件制造方法公开(公告)号:US20070287268A1
公开(公告)日:2007-12-13
申请号:US11747575
申请日:2007-05-11
申请人: Hideo Yamagata , Takeyoshi Koumoto , Kenji Atsuumi , Yoichi Negoro , Tatsushiro Hirata , Takashi Noguchi
发明人: Hideo Yamagata , Takeyoshi Koumoto , Kenji Atsuumi , Yoichi Negoro , Tatsushiro Hirata , Takashi Noguchi
IPC分类号: H01L21/322
CPC分类号: H01L21/02505 , C30B25/02 , C30B29/52 , H01L21/02381 , H01L21/0245 , H01L21/02488 , H01L21/02502 , H01L21/0251 , H01L21/02532 , H01L21/0262 , H01L21/02636 , H01L29/66242
摘要: In a vapor-phase growth method in which a silicon-germanium mixed crystal layer is deposited on a semiconductor substrate, the vapor-phase growth method comprises a first step of introducing silicon raw material gas into a reaction furnace in such a manner that a silicon raw material gas partial pressure increases in proportion to a time to thereby deposit a first semiconductor layer of a silicon layer on the semiconductor substrate under reduced pressure, a second step of introducing silicon raw material gas and germanium raw material gas into the reaction furnace in such a manner that a desired germanium concentration may be obtained to thereby deposit a second semiconductor layer of a silicon-germanium mixed crystal layer on the first semiconductor layer under reduced pressure and a third step of introducing silicon raw material gas into the reaction furnace under reduced pressure to thereby deposit a third semiconductor layer of a silicon layer on the second semiconductor layer. Thus, there can be obtained a semiconductor layer in which a misfit dislocation can be improved.
摘要翻译: 在半导体基板上沉积硅 - 锗混晶层的气相生长方法中,气相生长方法包括将硅原料气体引入反应炉的第一步骤,即将硅 原料气体分压与时间成比例地增加,从而在半导体衬底上沉积硅层的第一半导体层减压,第二步是将硅原料气体和锗原料气体引入反应炉中 可以获得期望的锗浓度,从而在减压下在第一半导体层上沉积硅 - 锗混合晶体层的第二半导体层,并且在减压下将硅原料气体引入反应炉中的第三步骤 从而在第二半导体层上沉积硅层的第三半导体层。 因此,可以获得其中可以提高失配位错的半导体层。
-
3.发明授权Vapor-phase growth method, semiconductor manufacturing method and semiconductor device manufacturing method 有权气相生长法,半导体制造方法和半导体器件制造方法公开(公告)号:US07303979B2
公开(公告)日:2007-12-04
申请号:US10818821
申请日:2004-04-06
申请人: Hideo Yamagata , Takeyoshi Koumoto , Kenji Atsuumi , Yoichi Negoro , Tatsushiro Hirata , Takashi Noguchi
发明人: Hideo Yamagata , Takeyoshi Koumoto , Kenji Atsuumi , Yoichi Negoro , Tatsushiro Hirata , Takashi Noguchi
IPC分类号: H01L21/322
CPC分类号: H01L21/02505 , C30B25/02 , C30B29/52 , H01L21/02381 , H01L21/0245 , H01L21/02488 , H01L21/02502 , H01L21/0251 , H01L21/02532 , H01L21/0262 , H01L21/02636 , H01L29/66242
摘要: In a vapor-phase growth method in which a silicon-germanium mixed crystal layer is deposited on a semiconductor substrate, the vapor-phase growth method comprises a first step of introducing silicon raw material gas into a reaction furnace in such a manner that a silicon raw material gas partial pressure increases in proportion to a time to thereby deposit a first semiconductor layer of a silicon layer on the semiconductor substrate under reduced pressure, a second step of introducing silicon raw material gas and germanium raw material gas into the reaction furnace in such a manner that a desired germanium concentration may be obtained to thereby deposit a second semiconductor layer of a silicon-germanium mixed crystal layer on the first semiconductor layer under reduced pressure and a third step of introducing silicon raw material gas into the reaction furnace under reduced pressure to thereby deposit a third semiconductor layer of a silicon layer on the second semiconductor layer. Thus, there can be obtained a semiconductor layer in which a misfit dislocation can be improved.
摘要翻译: 在半导体基板上沉积硅 - 锗混晶层的气相生长方法中,气相生长方法包括将硅原料气体引入反应炉的第一步骤,即将硅 原料气体分压与时间成比例地增加,从而在半导体衬底上沉积硅层的第一半导体层减压,第二步是将硅原料气体和锗原料气体引入反应炉中 可以获得期望的锗浓度,从而在减压下在第一半导体层上沉积硅 - 锗混合晶体层的第二半导体层,并且在减压下将硅原料气体引入反应炉中的第三步骤 从而在第二半导体层上沉积硅层的第三半导体层。 因此,可以获得其中可以提高失配位错的半导体层。
-
公开(公告)号:US07157344B2
公开(公告)日:2007-01-02
申请号:US10204386
申请日:2001-12-20
申请人: Hideo Yamagata , Takeyoshi Koumoto , Kenji Atsuumi , Yoichi Negoro , Tatsushiro Hirata , Takashi Noguchi
发明人: Hideo Yamagata , Takeyoshi Koumoto , Kenji Atsuumi , Yoichi Negoro , Tatsushiro Hirata , Takashi Noguchi
IPC分类号: H01L21/331
CPC分类号: H01L21/02505 , C30B25/02 , C30B29/52 , H01L21/02381 , H01L21/0245 , H01L21/02488 , H01L21/02502 , H01L21/0251 , H01L21/02532 , H01L21/0262 , H01L21/02636 , H01L29/66242
摘要: In a vapor-phase growth method in which a silicon-germanium mixed crystal layer is deposited on a semiconductor substrate, the vapor-phase growth method comprises a first step of introducing silicon raw material gas into a reaction furnace in such a manner that a silicon raw material gas partial pressure increases in proportion to a time to thereby deposit a first semiconductor layer of a silicon layer on the semiconductor substrate under reduced pressure, a second step of introducing silicon raw material gas and germanium raw material gas into the reaction furnace in such a manner that a desired germanium concentration may be obtained to thereby deposit a second semiconductor layer of a silicon-germanium mixed crystal layer on the first semiconductor layer under reduced pressure and a third step of introducing silicon raw material gas into the reaction furnace under reduced pressure to thereby deposit a third semiconductor layer of a silicon layer on the second semiconductor layer. Thus, there can be obtained a semiconductor layer in which a misfit dislocation can be improved.
-
-
-
搜索结果
4 条记录 (耗时 0.01 秒)
