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公开(公告)号:US20110311735A1
公开(公告)日:2011-12-22
申请号:US13163817
申请日:2011-06-20
申请人: RONGJUN WANG , SALLY LOU , MUHAMMAD RASHEED , JIANXIN LEI , XIANMIN TANG , SRINIVAS GANDIKOTA , RYAN HANSON , TZA-JING GUNG , KEITH A. MILLER , THANH X. NGUYEN
发明人: RONGJUN WANG , SALLY LOU , MUHAMMAD RASHEED , JIANXIN LEI , XIANMIN TANG , SRINIVAS GANDIKOTA , RYAN HANSON , TZA-JING GUNG , KEITH A. MILLER , THANH X. NGUYEN
IPC分类号: C23C14/35
CPC分类号: C23C14/35 , H01J37/3408 , H01J37/345 , H01J37/3461
摘要: Methods and apparatus to improve target life and deposition uniformity in PVD chambers are provided herein. In some embodiments, a magnetron assembly includes a shunt plate having a central axis, the shunt plate rotatable about the central axis, a first open loop magnetic pole arc coupled to the shunt plate at a first radius from the central axis, and a second open loop magnetic pole arc coupled the shunt plate at a first distance from the first open loop magnetic pole arc, wherein at least one of the first radius varies along the first open loop magnetic pole arc or the first distance varies along the second open loop magnetic pole arc. In some embodiments, a first polarity of the first open loop magnetic pole arc opposes a second polarity of the second open loop magnetic pole arc.
摘要翻译: 本文提供了改善PVD室中的目标寿命和沉积均匀性的方法和装置。 在一些实施例中,磁控管组件包括具有中心轴线的分流板,分流板可围绕中心轴线旋转,第一开环磁极电弧在与中心轴线成第一半径处耦合到分流板,第二开路 环形磁极以与第一开环磁极弧成第一距离的方式将分流板电弧耦合,其中第一半径中的至少一个沿第一开环磁极弧变化,或者第一距离沿第二开环磁极变化 弧。 在一些实施例中,第一开环磁极的第一极性与第二开环磁极的第二极性相反。
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2.发明申请METHOD FOR ULTRA-UNIFORM SPUTTER DEPOSITION USING SIMULTANEOUS RF AND DC POWER ON TARGET 有权使用同步射频和直流电源对目标进行超均匀溅射沉积的方法公开(公告)号:US20100032289A1
公开(公告)日:2010-02-11
申请号:US12188937
申请日:2008-08-08
申请人: RONGJUN WANG , Xianmin Tang , Zhendong Liu , Tza-Jing Gung , Maurice E. Ewert
发明人: RONGJUN WANG , Xianmin Tang , Zhendong Liu , Tza-Jing Gung , Maurice E. Ewert
IPC分类号: C23C14/00
CPC分类号: C23C14/54 , C23C14/3492 , C23C14/35 , C23C14/542 , H01J37/32027 , H01J37/32091 , H01J37/34 , H01J37/347 , H01L21/02266
摘要: In a plasma-enhanced physical vapor deposition reactor, uniformity of radial distribution of the deposition rate across the workpiece is enhanced by applying both RF and D.C. power to the target and adjusting the power levels of the RF and D.C. power independently. Further optimization is obtained by adjusting the height of the magnet above the target, adjusting the radius of the orbital motion of the magnet above the target and providing an angle edge surface of the target.
摘要翻译: 在等离子体增强的物理气相沉积反应器中,通过将RF和DCC功率施加到目标并且独立地调节RF和DC电源的功率电平来增强穿过工件的沉积速率的径向分布的均匀性。 通过调整磁体在目标上方的高度,调整磁体在目标上方的轨道运动的半径,并提供目标的角度边缘表面,可获得进一步优化。
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公开(公告)号:US20070190780A1
公开(公告)日:2007-08-16
申请号:US11691617
申请日:2007-03-27
申请人: HUA CHUNG , Rongjun Wang , Nirmalya Maity
发明人: HUA CHUNG , Rongjun Wang , Nirmalya Maity
IPC分类号: H01L21/44
CPC分类号: C23C16/45529 , C23C16/02 , C23C16/0281 , C23C16/14 , H01L21/28562 , H01L21/76843 , H01L21/76862 , H01L21/76871 , H01L21/76876
摘要: Methods for processing substrate to deposit barrier layers of one or more material layers by atomic layer deposition are provided. In one aspect, a method is provided for processing a substrate including depositing a metal nitride barrier layer on at least a portion of a substrate surface by alternately introducing one or more pulses of a metal containing compound and one or more pulses of a nitrogen containing compound and depositing a metal barrier layer on at least a portion of the metal nitride barrier layer by alternately introducing one or more pulses of a metal containing compound and one or more pulses of a reductant. A soak process may be performed on the substrate surface before deposition of the metal nitride barrier layer and/or metal barrier layer.
摘要翻译: 提供了通过原子层沉积处理衬底以沉积一层或多层材料层的阻挡层的方法。 在一个方面,提供了一种处理衬底的方法,包括通过交替地引入含有金属的化合物的一种或多种脉冲和含氮化合物的一个或多个脉冲,在衬底表面的至少一部分上沉积金属氮化物阻挡层 以及通过交替地引入一种或多种含金属化合物的脉冲和一种或多种还原剂的脉冲,在金属氮化物阻挡层的至少一部分上沉积金属阻挡层。 可以在沉积金属氮化物阻挡层和/或金属阻挡层之前在衬底表面上进行浸泡工艺。
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公开(公告)号:US07211508B2
公开(公告)日:2007-05-01
申请号:US10871864
申请日:2004-06-18
申请人: Hua Chung , Rongjun Wang , Nirmalya Maity
发明人: Hua Chung , Rongjun Wang , Nirmalya Maity
IPC分类号: H01L21/4763
CPC分类号: C23C16/45529 , C23C16/02 , C23C16/0281 , C23C16/14 , H01L21/28562 , H01L21/76843 , H01L21/76862 , H01L21/76871 , H01L21/76876
摘要: Methods for processing substrate to deposit barrier layers of one or more material layers by atomic layer deposition are provided. In one aspect, a method is provided for processing a substrate including depositing a metal nitride barrier layer on at least a portion of a substrate surface by alternately introducing one or more pulses of a metal containing compound and one or more pulses of a nitrogen containing compound and depositing a metal barrier layer on at least a portion of the metal nitride barrier layer by alternately introducing one or more pulses of a metal containing compound and one or more pulses of a reductant. A soak process may be performed on the substrate surface before deposition of the metal nitride barrier layer and/or metal barrier layer.
摘要翻译: 提供了通过原子层沉积处理衬底以沉积一层或多层材料层的阻挡层的方法。 在一个方面,提供了一种处理衬底的方法,包括通过交替地引入含有金属的化合物的一种或多种脉冲和含氮化合物的一个或多个脉冲,在衬底表面的至少一部分上沉积金属氮化物阻挡层 以及通过交替地引入一种或多种含金属化合物的脉冲和一种或多种还原剂的脉冲,在金属氮化物阻挡层的至少一部分上沉积金属阻挡层。 可以在沉积金属氮化物阻挡层和/或金属阻挡层之前在衬底表面上进行浸泡工艺。
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5.发明申请Integrated process for sputter deposition of a conductive barrier layer, especially an alloy of ruthenium and tantalum, underlying copper or copper alloy seed layer 审中-公开用于溅射沉积导电阻挡层的集成方法,特别是钌和钽的合金,铜或铜合金种子层下面公开(公告)号:US20070059502A1
公开(公告)日:2007-03-15
申请号:US11511869
申请日:2006-08-29
申请人: Rongjun Wang , Hua Chung , Xianmin Tang , Jenn Wang , Wei Wang , Yoichiro Tanaka , Jick Yu , Praburam Gopalraja
发明人: Rongjun Wang , Hua Chung , Xianmin Tang , Jenn Wang , Wei Wang , Yoichiro Tanaka , Jick Yu , Praburam Gopalraja
CPC分类号: C23C14/046 , C23C14/0641 , C23C14/165 , H01L21/2855 , H01L21/76844 , H01L21/76846 , H01L21/76873 , H01L23/485 , H01L23/53238 , H01L2924/0002 , Y10T428/24917 , Y10T428/24926 , H01L2924/00
摘要: A fabrication method and a product for the deposition of a conductive barrier or other liner layer in a vertical electrical interconnect structure. One embodiment includes within a a hole through a dielectric layer a barrier layer of RuTaN, an adhesion layer of RuTa, and a copper seed layer forming a liner for electroplating of copper. The ruthenium content is preferably greater than 50 at % and more preferably at least 80 at % but less than 95 at %. The barrier and adhesion layers may both be sputter deposited. Other platinum-group elements substitute for the ruthenium and other refractory metals substitute for the tantalum. Aluminum alloying into RuTa when annealed presents a moisture barrier. Copper contacts include different alloying fractions of RuTa to shift the work function to the doping type.
摘要翻译: 用于在垂直电互连结构中沉积导电屏障或其它衬垫层的制造方法和产品。 一个实施方案包括通过电介质层的孔,RuTaN的阻挡层,RuTa的粘附层和形成铜电镀衬垫的铜籽晶层。 钌含量优选大于50原子%,更优选至少80原子%但小于95原子%。 阻挡层和粘附层可以被溅射沉积。 其他铂族元素代替钌和其他难熔金属代替钽。 当退火时铝合金化成RuTa呈现防潮层。 铜触点包括RuTa的不同合金分数,以将功函数转移到掺杂类型。
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6.发明申请OXYGEN CONTROLLED PVD ALN BUFFER FOR GAN-BASED OPTOELECTRONIC AND ELECTRONIC DEVICES 审中-公开用于基于GAN的光电和电子设备的氧气控制PVD ALN缓冲器公开(公告)号:US20160035937A1
公开(公告)日:2016-02-04
申请号:US14884251
申请日:2015-10-15
申请人: Mingwei Zhu , Nag B. Patibandla , Rongjun Wang , Daniel Lee Diehl , Vivek Agrawal , Anantha Subramani
发明人: Mingwei Zhu , Nag B. Patibandla , Rongjun Wang , Daniel Lee Diehl , Vivek Agrawal , Anantha Subramani
CPC分类号: H01L33/12 , H01J37/32467 , H01J37/32724 , H01J37/3405 , H01J37/347 , H01L29/2003 , H01L31/1856 , H01L33/007 , H01L33/0075 , Y02E10/544
摘要: Oxygen controlled PVD AlN buffers for GaN-based optoelectronic and electronic devices is described. Methods of forming a PVD AlN buffer for GaN-based optoelectronic and electronic devices in an oxygen controlled manner are also described. In an example, a method of forming an aluminum nitride (AlN) buffer layer for GaN-based optoelectronic or electronic devices involves reactive sputtering an AlN layer above a substrate, the reactive sputtering involving reacting an aluminum-containing target housed in a physical vapor deposition (PVD) chamber with a nitrogen-containing gas or a plasma based on a nitrogen-containing gas. The method further involves incorporating oxygen into the AlN layer.
摘要翻译: 描述了用于GaN基光电子和电子器件的氧控PVD PVD缓冲器。 还描述了以氧控制方式形成GaN基光电子和电子器件的PVD AlN缓冲液的方法。 在一个示例中,形成用于GaN基光电子或电子器件的氮化铝(AlN)缓冲层的方法包括在衬底上方的AlN层的反应溅射,所述反应性溅射涉及使物理气相沉积 (PVD)室,其含有含氮气体或基于含氮气体的等离子体。 该方法还包括将氧气掺入到AlN层中。
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公开(公告)号:US09087679B2
公开(公告)日:2015-07-21
申请号:US13365876
申请日:2012-02-03
CPC分类号: H01J37/34 , H01J37/32082 , H01J37/3441
摘要: Embodiments of the invention generally relate to a grounding kit for a semiconductor processing chamber, and a semiconductor processing chamber having a grounding kit. More specifically, embodiments described herein relate to a grounding kit which creates an asymmetric grounding path selected to significantly reduce the asymmetries caused by an off center RF power delivery.
摘要翻译: 本发明的实施例一般涉及用于半导体处理室的接地套件和具有接地套件的半导体处理室。 更具体地说,本文描述的实施例涉及一种接地套件,该接地套件产生一个非对称接地路径,该非接地套件被选择以显着地减少由偏心的RF功率输送引起的
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8.发明申请Oxygen Controlled PVD Aluminum Nitride Buffer for Gallium Nitride-Based Optoelectronic and Electronic Devices 有权用于氮化镓的光电子和电子器件的氧气控制PVD氮化铝缓冲液公开(公告)号:US20140264363A1
公开(公告)日:2014-09-18
申请号:US13947857
申请日:2013-07-22
申请人: Mingwei Zhu , Nag B. Patibandla , Rongjun Wang , Daniel Lee Diehl , Vivek Agrawal , Anantha Subramani
发明人: Mingwei Zhu , Nag B. Patibandla , Rongjun Wang , Daniel Lee Diehl , Vivek Agrawal , Anantha Subramani
CPC分类号: H01L33/12 , H01J37/32467 , H01J37/32724 , H01J37/3405 , H01J37/347 , H01L29/2003 , H01L31/1856 , H01L33/007 , H01L33/0075 , Y02E10/544
摘要: Oxygen controlled PVD AlN buffers for GaN-based optoelectronic and electronic devices is described. Methods of forming a PVD AlN buffer for GaN-based optoelectronic and electronic devices in an oxygen controlled manner are also described. In an example, a method of forming an aluminum nitride (AlN) buffer layer for GaN-based optoelectronic or electronic devices involves reactive sputtering an AlN layer above a substrate, the reactive sputtering involving reacting an aluminum-containing target housed in a physical vapor deposition (PVD) chamber with a nitrogen-containing gas or a plasma based on a nitrogen-containing gas. The method further involves incorporating oxygen into the AlN layer.
摘要翻译: 描述了用于GaN基光电子和电子器件的氧控PVD PVD缓冲器。 还描述了以氧控制方式形成GaN基光电子和电子器件的PVD AlN缓冲液的方法。 在一个示例中,形成用于GaN基光电子或电子器件的氮化铝(AlN)缓冲层的方法包括在衬底上方的AlN层的反应溅射,所述反应性溅射涉及使物理气相沉积 (PVD)室,其含有含氮气体或基于含氮气体的等离子体。 该方法还包括将氧气掺入到AlN层中。
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公开(公告)号:US08580094B2
公开(公告)日:2013-11-12
申请号:US13163817
申请日:2011-06-20
申请人: Rongjun Wang , Sally Lou , Muhammad Rasheed , Jianxin Lei , Xianmin Tang , Srinivas Gandikota , Ryan Hanson , Tza-Jing Gung , Keith A. Miller , Thanh X. Nguyen
发明人: Rongjun Wang , Sally Lou , Muhammad Rasheed , Jianxin Lei , Xianmin Tang , Srinivas Gandikota , Ryan Hanson , Tza-Jing Gung , Keith A. Miller , Thanh X. Nguyen
IPC分类号: C23C14/35
CPC分类号: C23C14/35 , H01J37/3408 , H01J37/345 , H01J37/3461
摘要: Methods and apparatus to improve target life and deposition uniformity in PVD chambers are provided herein. In some embodiments, a magnetron assembly includes a shunt plate having a central axis, the shunt plate rotatable about the central axis, a first open loop magnetic pole arc coupled to the shunt plate at a first radius from the central axis, and a second open loop magnetic pole arc coupled the shunt plate at a first distance from the first open loop magnetic pole arc, wherein at least one of the first radius varies along the first open loop magnetic pole arc or the first distance varies along the second open loop magnetic pole arc. In some embodiments, a first polarity of the first open loop magnetic pole arc opposes a second polarity of the second open loop magnetic pole arc.
摘要翻译: 本文提供了改善PVD室中的目标寿命和沉积均匀性的方法和装置。 在一些实施例中,磁控管组件包括具有中心轴线的分流板,分流板可围绕中心轴线旋转,第一开环磁极电弧在与中心轴线成第一半径处耦合到分流板,第二开路 环形磁极以与第一开环磁极弧成第一距离的方式将分流板电弧耦合,其中第一半径中的至少一个沿第一开环磁极弧变化,或者第一距离沿第二开环磁极变化 弧。 在一些实施例中,第一开环磁极的第一极性与第二开环磁极的第二极性相反。
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10.发明授权Sputtering chamber having auxiliary backside magnet to improve etch uniformity and magnetron producing sustained self sputtering of ruthenium and tantalum 失效具有辅助背面磁体的溅射室以提高蚀刻均匀性,并产生磁控管,从而产生钌和钽的持续自溅射公开(公告)号:US08557094B2
公开(公告)日:2013-10-15
申请号:US11689720
申请日:2007-03-22
申请人: Xianmin Tang , Hua Chung , Rongjun Wang , Tza-Jing Gung , Praburam Gopalraja , Jick Yu , Hong Yang
发明人: Xianmin Tang , Hua Chung , Rongjun Wang , Tza-Jing Gung , Praburam Gopalraja , Jick Yu , Hong Yang
IPC分类号: C23C14/34
CPC分类号: C23C14/0641 , C23C14/345 , C23C14/35 , H01J37/3408 , H01J37/3455
摘要: A plasma sputter chamber and process for sputtering ruthenium and tantalum at low pressure or with self-sustained sputtering (SSS). The source magnetron is strongly unbalanced and of sufficient size to project the unbalanced magnetic field toward the wafer to increase the ionization probability. Sputter etch uniformity is increased by the use of an auxiliary magnet system rotating with the source magnetron but placed towards the center of rotation. It may be a larger, nearly balanced auxiliary magnetron with an outer polarity matching that of the source magnetron or an array of magnets of that polarity. An integrated process includes a directional deposition of the refractory metal and its nitride, a sputter etch, and a flash deposition.
摘要翻译: 一种等离子体溅射室和用于在低压或自持溅射(SSS)下溅射钌和钽的工艺。 源极磁控管是非常不平衡的,并且具有足够的尺寸以将不平衡磁场投射到晶片以增加电离概率。 通过使用与源磁控管一起旋转但是朝向旋转中心放置的辅助磁体系统来增加溅射蚀刻均匀性。 它可以是较大的,几乎平衡的辅助磁控管,其外极性与源极磁控管或该极性的磁体阵列的极性匹配。 集成工艺包括难熔金属及其氮化物的定向沉积,溅射蚀刻和闪蒸沉积。
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