公开(公告)号：US6117231A

公开(公告)日：2000-09-12

申请号：US290261

申请日：1999-04-13

申请人： Izumi Fusegawa ,  Toshirou Hayashi ,  Ryoji Hoshi ,  Tomohiko Ohta

发明人： Izumi Fusegawa ,  Toshirou Hayashi ,  Ryoji Hoshi ,  Tomohiko Ohta

IPC分类号： C30B29/06 ,  C30B15/00

CPC分类号： C30B29/06 ,  C30B15/00

摘要： A silicon wafer sliced from a silicon single crystal having a low oxygen concentration is used as an epitaxial substrate to provide semiconductor silicon single crystal wafers exhibiting good electrical characteristics at a low cost. A semiconductor silicon single crystal having a resistivity in a range of 0.005 to 0.02 .OMEGA..multidot.cm and an oxygen concentration of 12.times.10.sup.17 atoms/cm.sup.3 (ASTM'79) or less is manufactured by a Czochralski (CZ) method. The resulting silicon single crystal is shaped into a silicon single crystal substrate on which a silicon single crystal is epitaxially grown.

摘要翻译： 使用从低氧浓度的硅单晶切片的硅晶片作为外延基板，以低成本提供具有良好电特性的半导体硅单晶晶片。 通过Czochralski（CZ）法制造电阻率为0.005〜0.02ΩEG·xcm，氧浓度为12×10 17 atoms / cm 3（ASTM'79）以下的半导体硅单晶。 将所得的硅单晶成形为其上外延生长硅单晶的硅单晶衬底。

公开(公告)号：US06632280B2

公开(公告)日：2003-10-14

申请号：US09937132

申请日：2001-09-21

申请人： Ryoji Hoshi ,  Koji Kitagawa ,  Izumi Fusegawa ,  Tomohiko Ohta

发明人： Ryoji Hoshi ,  Koji Kitagawa ,  Izumi Fusegawa ,  Tomohiko Ohta

IPC分类号： C30B1500

CPC分类号： C30B29/06 ,  C30B15/14 ,  C30B15/206 ,  Y10T117/1032 ,  Y10T117/1068 ,  Y10T117/1072 ,  Y10T117/1088

摘要： An apparatus for growing a single crystal (20) comprising at least a main chamber (1) enclosing a crucible (5, 6) for accommodating a raw material melt (4) and a heater (7) for heating the raw material melt and a pulling chamber (2) continuously provided above the main chamber, into which a grown single crystal is pulled and stored, wherein the apparatus further comprises a cooling cylinder (11) that extends at least from a ceiling of the main chamber toward a raw material melt surface so as to surround a single crystal under pulling (3) and is forcibly cooled with a cooling medium, and an auxiliary cooling member (13) extending below the cooling cylinder and having a cylindrical shape or a shape tapered toward the downward direction. There is provided an apparatus for growing a single crystal that can exert cooling effect on a grown single crystal to the maximum extent so as to accelerate the crystal growth rate and safely produce a single crystal without leakage of cooling medium due to breakage etc.

摘要翻译： 包括至少包围坩埚的主室（ 1 ）的单晶生长装置（ 20 用于容纳原材料熔体（ 4 ）的加热器（ 7 < / BOLD> ），用于加热原料熔体和在主室上方连续设置的拉动室（ 2 ），拉出并存储生长的单晶 ，其中所述装置还包括至少从主室的天花板朝向原料熔体表面延伸的冷却圆筒（ 11 PDAT>），以围绕单晶体 （ 3 ），并用冷却介质强制冷却，并在下方延伸的辅助冷却构件（ 13 ） 具有圆筒形状或朝向下方向逐渐变细的形状。 提供了一种用于生长可以最大程度地对生长的单晶施加冷却效果的单晶的装置，以便加速晶体生长速率并且安全地生产单晶，而不会由于断裂等导致冷却介质的泄漏。 PTEXT>

公开(公告)号：US06592662B2

公开(公告)日：2003-07-15

申请号：US09959381

申请日：2001-10-24

申请人： Izumi Fusegawa ,  Ryoji Hoshi ,  Kouichi Inokoshi ,  Tomohiko Ohta

发明人： Izumi Fusegawa ,  Ryoji Hoshi ,  Kouichi Inokoshi ,  Tomohiko Ohta

IPC分类号： C30B1500

CPC分类号： C30B29/06 ,  C30B15/305 ,  Y10S117/917

摘要： In a method manufacturing a silicon single crystal 8 according to an MCZ method, a flow rate of an inert gas flowing in a growth furnace 1 during growth of the silicon single crystal 8 and/or a pressure in the growth furnace 1 is altered according to a pulling amount of the silicon single crystal 8 to adjust an interstitial oxygen concentration therein. By altering a flow rate of an inert gas flowing in the growth furnace or a pressure therein, an amount of oxygen evaporating as an oxide from a surface of a silicon melt 10 in the vicinity of a crystal growth interface can be easily adjusted, and thereby, an oxygen amount included in the silicon melt 10 can be controlled with ease.

公开(公告)号：US06565822B1

公开(公告)日：2003-05-20

申请号：US09646713

申请日：2000-09-21

申请人： Ryoji Hoshi ,  Susumu Sonokawa ,  Masahiro Sakurada ,  Tomohiko Ohta ,  Izumi Fusegawa

发明人： Ryoji Hoshi ,  Susumu Sonokawa ,  Masahiro Sakurada ,  Tomohiko Ohta ,  Izumi Fusegawa

IPC分类号： C09B3326

CPC分类号： C30B29/06 ,  C30B15/203

摘要： An epitaxial silicon wafer, which has no projections having a size of 100 nm or more and a height of 5 nm or more on an epitaxial layer, and a method for producing an epitaxial silicon wafer, wherein a single crystal ingot containing no I-region is grown when a silicon single crystal is grown by the CZ method, and an epitaxial layer is deposited on a silicon wafer sliced from the single crystal ingot and containing no I-region for the entire surface. An epitaxial wafer of high quality with no projection-like surface distortion observed as particles on an epi-layer surface is provided by forming a wafer having no I-region for the entire surface from a single crystal and depositing an epitaxial layer thereon, and a single crystal having no I-region for entire plane is produced with good yield and high productivity, thereby improving productivity of epi-wafers and realizing cost reduction.

摘要翻译： 在外延层上没有尺寸为100nm以上且高度为5nm以上的外延硅晶片和外延硅晶片的制造方法，其中，不含I区域的单晶锭 当通过CZ法生长硅单晶时生长，并且在从单晶锭切片的硅晶片上沉积外延层，并且在整个表面上不含有I区。 通过从单晶形成整个表面没有I区的晶片并在其上沉积外延层来提供高品质的外延晶片，其没有观察到作为外延表面上的颗粒的投射状表面变形， 以良好的产率和高生产率生产不具有整个平面的I区的单晶，从而提高外延片的生产率并实现成本降低。

公开(公告)号：US5766346A

公开(公告)日：1998-06-16

申请号：US760959

申请日：1996-12-05

申请人： Toshirou Hayashi ,  Ryouji Hoshi ,  Izumi Fusegawa ,  Tomohiko Ohta

发明人： Toshirou Hayashi ,  Ryouji Hoshi ,  Izumi Fusegawa ,  Tomohiko Ohta

IPC分类号： C30B15/00 ,  C30B15/14 ,  C30B15/30 ,  C30B29/06 ,  C30B35/00

CPC分类号： C30B29/06 ,  C30B15/305 ,  Y10T117/10 ,  Y10T117/1032

摘要： An apparatus for producing a silicon single crystal by the MCZ method is disclosed in which electrodes and magnets are arranged so as to make such a condition that a line of magnetic force passing through the central axis of the crucible and a horizontal electric current which results from the supply of a direct current to the heater forms a counterclockwise angle of more than 0.degree. and less than 180.degree. on the basis of the condition where the direction of the line of magnetic force coincides with the direction of the horizontal electric current.

摘要翻译： 公开了一种通过MCZ方法制造单晶硅的装置，其中电极和磁体被布置成使得通过坩埚的中心轴线的磁力线和由坩埚的中心轴线产生的水平电流 基于磁力线的方向与水平电流的方向一致的条件，向加热器的直流电流形成大于0°且小于180°的逆时针角。

公开(公告)号：US06893499B2

公开(公告)日：2005-05-17

申请号：US10312921

申请日：2001-06-28

申请人： Izumi Fusegawa ,  Koji Kitagawa ,  Ryoji Hoshi ,  Masahiro Sakurada ,  Tomohiko Ohta

发明人： Izumi Fusegawa ,  Koji Kitagawa ,  Ryoji Hoshi ,  Masahiro Sakurada ,  Tomohiko Ohta

IPC分类号： C30B15/00 ,  C30B15/20

CPC分类号： C30B29/06 ,  C30B15/203

摘要： According to the present invention, there is disclosed a silicon single crystal wafer grown according to the CZ method which is a wafer having a diameter of 200 mm or more produced from a single crystal grown at a growth rate of 0.5 mm/min or more without doping except for a dopant for controlling resistance, wherein neither an octahedral void defect due to vacancies nor a dislocation cluster due to interstitial silicons exists as a grown-in defect, and a method for producing it. There can be provided a high quality silicon single crystal wafer having a large diameter wherein a silicon single crystal in which both of octahedral void defects and dislocation clusters which are growth defects are substantially eliminated is grown at higher rate compared with the conventional method by the usual CZ method, and furthermore by controlling a concentrations of interstitial oxygen in the crystal to be low, a precipitation amount is lowered and ununiformity of BMD in a plane of the wafer is improved, and provided a method for producing it.

摘要翻译： 根据本发明，公开了一种根据CZ方法生长的硅单晶晶片，其是由以0.5mm / min以上的生长速度生长的单晶产生的直径为200mm以上的晶片的晶片，没有 除了用于控制电阻的掺杂剂之外的掺杂，其中由于间隙硅而由空位引起的八面体空隙缺陷和位错簇都不作为生长缺陷而存在，以及其制造方法。 可以提供具有大直径的高质量硅单晶晶片，其中以常规方法与常规方法相比，以更高的速率生长其中八面体空隙缺陷和作为生长缺陷的位错簇基本上消除的硅单晶 CZ法，另外通过将晶体中的间隙氧的浓度控制得较低，降低析出量，提高晶片的平面内的BMD的不均匀性，并提供其制造方法。

公开(公告)号：US06764548B2

公开(公告)日：2004-07-20

申请号：US10204278

申请日：2002-08-20

申请人： Ryoji Hoshi ,  Takahiro Yanagimachi ,  Izumi Fusegawa ,  Tomohiko Ohta ,  Yuuichi Miyahara ,  Tetsuya Igarashi

发明人： Ryoji Hoshi ,  Takahiro Yanagimachi ,  Izumi Fusegawa ,  Tomohiko Ohta ,  Yuuichi Miyahara ,  Tetsuya Igarashi

IPC分类号： C30B3500

CPC分类号： C30B15/14 ,  C30B15/206 ,  C30B29/06 ,  Y10T117/1068 ,  Y10T117/1072 ,  Y10T117/1088

摘要： The present invention provides an apparatus and a method for producing a silicon semiconductor single crystal which can stabilize and homogenize an amount of precipitated oxygen in the direction of the crystal growth axis when growing a silicon semiconductor single crystal. The apparatus for producing a silicon semiconductor single crystal by the Czochralski method comprises a main growth furnace having a crucible retaining silicon melt disposed therein for growing a silicon semiconductor single crystal, and an upper growth furnace for housing therein and cooling the silicon semiconductor single crystal pulled from the silicon melt, wherein the upper growth furnace communicated to a ceiling section of the main growth furnace is provided with an upper insulating member for surrounding a pulled silicon semiconductor single crystal.

摘要翻译： 本发明提供了一种用于制造硅半导体单晶的装置和方法，当生长硅半导体单晶时，可以使晶体生长轴方向上的沉淀氧量稳定和均化。 通过切克劳斯基法生产硅半导体单晶的装置包括：主生长炉，其具有保存硅熔体的坩埚，用于生长硅半导体单晶;以及上部生长炉，用于容纳在其中并冷却硅半导体单晶拉伸 与硅熔体相连，其中与主生长炉的顶部连通的上部生长炉设置有用于围绕拉制硅半导体单晶的上部绝缘构件。

公开(公告)号：US06632411B2

公开(公告)日：2003-10-14

申请号：US09979519

申请日：2001-11-23

申请人： Ryoji Hoshi ,  Izumi Fusegawa ,  Tomohiko Ohta ,  Shigemaru Maeda

发明人： Ryoji Hoshi ,  Izumi Fusegawa ,  Tomohiko Ohta ,  Shigemaru Maeda

IPC分类号： C30B1502

CPC分类号： C30B29/06 ,  C30B15/203 ,  C30B15/206

摘要： The present invention provides a silicon wafer sliced from a silicon single crystal ingot grown by the Czochralski method under such conditions that V-rich region should become dominant, wherein count number of particles having a size of 0.1 &mgr;m or more is 1 count/cm2 or less when particles are counted by using a particle counter and a method for producing a silicon single crystal. Thus, there is provided a production technique that can improve productivity and reduce cost for high quality silicon wafers of excellent device characteristics by further reducing density and size of defects such as COP.

摘要翻译： 本发明提供一种硅晶片，其由在富V区应变为主导的条件下，通过切克劳斯基法（Czochralski method）生长的硅单晶锭切片，其中具有0.1μm以上的粒子的计数为1个/ 当通过使用粒子计数器对颗粒进行计数时，HIL> <2 或更小，以及制造硅单晶的方法。 因此，提供了通过进一步减小诸如COP的缺陷的密度和尺寸来提高生产率并降低高质量硅晶片的成本的生产技术。

公开(公告)号：US20050252441A1

公开(公告)日：2005-11-17

申请号：US10512470

申请日：2003-05-07

申请人： Masahiro Sakurada ,  Nobuaki Mitamura ,  Izumi Fusegawa ,  Tomohiko Ohta

发明人： Masahiro Sakurada ,  Nobuaki Mitamura ,  Izumi Fusegawa ,  Tomohiko Ohta

IPC分类号： C30B15/00 ,  C30B29/06 ,  H01L21/322 ,  C30B33/06 ,  C30B21/06 ,  C30B27/02

CPC分类号： C30B29/06 ,  C30B15/14 ,  C30B15/203

摘要： In a method for producing a silicon single crystal by Czochralski method, the single crystal is grown with controlling a growth rate between a growth rate at a boundary where a defect region detected by Cu deposition remaining after disappearance of OSF ring disappears when gradually decreasing a growth rate of silicon single crystal during pulling and a growth rate at a boundary where a high oxygen precipitation Nv region having a density of BMDs of 1×107 numbers/cm3 or more and/or a wafer lifetime of 30 μsec or less after oxygen precipitation treatment disappears when gradually decreasing the growth rate further. Thereby, there is provided a silicon single crystal which does not belong to any of V region rich in vacancy, OSF region and I region rich in interstitial silicon, and has excellent electrical characteristics and gettering capability, so that yield of devices can be surely improved, and also an epitaxial wafer.

摘要翻译： 在通过Czochralski法制造单晶硅的方法中，通过控制在逐渐减小生长时OSF环消失后残留的Cu沉积检测到的缺陷区域的边界处的生长速度之间的生长速率生长单晶 拉伸时的硅单晶速率和BMD密度为1×10 7 / cm 3以上的高氧沉淀Nv区域的边界处的生长速度，以及 /或在氧沉淀处理后30微米或更小的晶片寿命在进一步降低生长速率时消失。 由此，提供了不属于富含空隙的V区，OSF区和富含间隙硅的I区的任何一种的硅单晶，并且具有优异的电特性和吸杂能力，从而可以可靠地提高器件的产量 ，以及外延晶片。

公开(公告)号：US06913646B2

公开(公告)日：2005-07-05

申请号：US10204935

申请日：2001-12-26

申请人： Masahiro Sakurada ,  Takeshi Kobayashi ,  Tatsuo Mori ,  Izumi Fusegawa ,  Tomohiko Ohta

发明人： Masahiro Sakurada ,  Takeshi Kobayashi ,  Tatsuo Mori ,  Izumi Fusegawa ,  Tomohiko Ohta

IPC分类号： C30B29/06 ,  C30B15/00 ,  C30B15/14 ,  H01L21/208 ,  H01L21/66 ,  C30B15/20

CPC分类号： C30B29/06 ,  C30B15/14

摘要： There can be provided a silicon single crystal wafer grown according to Czochralski method wherein the whole plane of the wafer is occupied by N region on the outside of OSF generated in a shape of a ring by thermal oxidation treatment and there exists no defect region detected by Cu deposition. Thereby, there can be produced a silicon single crystal wafer according to CZ method, which does not belong to any of V region rich in vacancies, OSF region and I region rich in interstitial silicons, and can surely improve electric characteristics such as oxide dielectric breakdown voltage characteristics or the like under stable manufacture conditions.

摘要翻译： 可以提供根据切克劳斯基法生长的硅单晶晶片，其中通过热氧化处理，晶片的整个平面由OSF外部的N形区域以环形形状占据，并且不存在由 铜沉积。 由此，可以制造根据CZ法的硅单晶晶片，其不属于富含空位的V区域，富含间隙硅的OSF区域和I区域中的任何一个，并且可以确保改善诸如氧化物介电击穿的电特性 电压特性等。