公开(公告)号：US20050054124A1

公开(公告)日：2005-03-10

申请号：US10699438

申请日：2003-10-31

申请人： Young Hee Mun ,  Kun Kim ,  Chung Koh ,  Seung Pyi

发明人： Young Hee Mun ,  Kun Kim ,  Chung Koh ,  Seung Pyi

IPC分类号： C30B29/06 ,  H01L21/00 ,  H01L21/02 ,  H01L21/322 ,  H01L21/324

CPC分类号： H01L21/324 ,  H01L21/3225

摘要： By using a two-step RTP (rapid thermal processing) process, the wafer is provided which has an ideal semiconductor device region secured by controlling fine oxygen precipitates and OiSFs (Oxidation Induced Stacking Fault) located on the surface region of the wafer. By performing the disclosed two-step rapid thermal process, the distribution of defects can be accurately controlled and an ideal device active zone can be formed up to a certain distance from the surfaces of the wafer. In addition, it is possible to maximize the internal gettering (IG) efficiency by enabling the oxygen precipitates and the bulk stacking faults to have constant densities in the depth direction in an internal region of the wafer, that is, the bulk region. In order to obtain the constant concentration profile of the oxygen precipitates and the bulk stacking faults in the bulk region, the wafer is subjected to the aforementioned two-step rapid thermal process in a predetermined mixed gas atmosphere.

摘要翻译： 通过使用两步RTP（快速热处理）工艺，提供晶片，其具有通过控制位于晶片表面区域上的精细氧沉淀物和OiSF（氧化诱导堆叠故障）而固定的理想半导体器件区域。 通过执行所公开的两步快速热处理，可以精确地控制缺陷的分布，并且可以形成理想的器件有源区至距离晶片表面一定距离。 此外，通过使晶体的内部区域即体积区域中的氧析出物和体积堆垛层错能够在深度方向上具有恒定的密度，可以使内部吸气（IG）效率最大化。 为了获得体积区域中的氧沉淀物的恒定浓度分布和体积堆垛层错，将晶片在预定的混合气体气氛中进行前述的两步快速热处理。

公开(公告)号：US20070298523A1

公开(公告)日：2007-12-27

申请号：US11765973

申请日：2007-06-20

申请人： Young Mun ,  Kun Kim ,  Chung Koh ,  Seung Pyi

发明人： Young Mun ,  Kun Kim ,  Chung Koh ,  Seung Pyi

IPC分类号： H01L21/00

CPC分类号： H01L21/324 ,  H01L21/3225

摘要： By using a two-step RTP (rapid thermal processing) process, the wafer is provided which has an ideal semiconductor device region secured by controlling fine oxygen precipitates and OiSFs (Oxidation Induced Stacking Fault) located on the surface region of the wafer. By performing the disclosed two-step rapid thermal process, the distribution of defects can be accurately controlled and an ideal device active zone can be formed up to a certain distance from the surfaces of the wafer. In addition, it is possible to maximize the internal gettering (IG) efficiency by enabling the oxygen precipitates and the bulk stacking faults to have constant densities in the depth direction in an internal region of the wafer, that is, the bulk region. In order to obtain the constant concentration profile of the oxygen precipitates and the bulk stacking faults in the bulk region, the wafer is subjected to the aforementioned two-step rapid thermal process in a predetermined mixed gas atmosphere.

摘要翻译： 通过使用两步RTP（快速热处理）工艺，提供晶片，其具有通过控制位于晶片表面区域上的精细氧沉淀物和OiSF（氧化诱导堆叠故障）而固定的理想半导体器件区域。 通过执行所公开的两步快速热处理，可以精确地控制缺陷的分布，并且可以形成理想的器件有源区至距离晶片表面一定距离。 此外，通过使晶体的内部区域即体积区域中的氧析出物和体积堆垛层错能够在深度方向上具有恒定的密度，可以使内部吸气（IG）效率最大化。 为了获得体积区域中的氧沉淀物的恒定浓度分布和体积堆垛层错，将晶片在预定的混合气体气氛中进行前述的两步快速热处理。