公开(公告)号：US20090295295A1

公开(公告)日：2009-12-03

申请号：US12129155

申请日：2008-05-29

Applicant: Steven C. Shannon ,  Kartik Ramaswamy ,  Daniel J. Hoffman ,  Matthew L. Miller ,  Kenneth S. Collins

Inventor： Steven C. Shannon ,  Kartik Ramaswamy ,  Daniel J. Hoffman ,  Matthew L. Miller ,  Kenneth S. Collins

IPC: H05H1/00

CPC classification number: H05H1/36 ,  H01J37/32082 ,  H01J37/32183 ,  H01J37/32935 ,  H05H1/46

Abstract: Fluctuations in a plasma characteristic such as load impedance are compensated by a controller that modulates a stabilization RF generator coupled to the plasma having a frequency suitable for stabilizing the plasma characteristic, the controller being responsive to the fluctuations in the plasma characteristic.

Abstract translation: 等离子体特性如负载阻抗的波动由控制器补偿，该控制器调制耦合到具有适于稳定等离子体特性的频率的等离子体的稳定RF发生器，控制器响应于等离子体特性的波动。

公开(公告)号：US20090197401A1

公开(公告)日：2009-08-06

申请号：US12069424

申请日：2008-02-06

Applicant: Shijian Li ,  Kartik Ramaswamy ,  Hiroji Hanawa ,  Seon-Mee Cho ,  Biagio Gallo ,  Dongwon Choi ,  Majeed A. Foad

Inventor： Shijian Li ,  Kartik Ramaswamy ,  Hiroji Hanawa ,  Seon-Mee Cho ,  Biagio Gallo ,  Dongwon Choi ,  Majeed A. Foad

IPC: H01L21/26

CPC classification number: H01J37/32412 ,  C23C14/48 ,  C23C14/564 ,  H01L21/2236

Abstract: Plasma immersion ion implantation employing a very high RF bias voltage on an electrostatic chuck to attain a requisite implant depth profile is carried out by first depositing a partially conductive silicon-containing seasoning layer over the interior chamber surfaces prior to wafer introduction.

Abstract translation: 在静电卡盘上采用非常高的RF偏置电压以获得必要的植入深度分布的等离子体浸没离子注入是通过在晶片引入之前首先在内部腔室表面上沉积部分导电的含硅调节层来进行的。

公开(公告)号：US20090140828A1

公开(公告)日：2009-06-04

申请号：US11934197

申请日：2007-11-02

Applicant: Steven C. Shannon ,  Daniel J. Hoffman ,  Matthew L. Miler ,  Olga Regelman ,  Kenneth S. Collins ,  Kartik Ramaswamy ,  Kallol Bera

Inventor： Steven C. Shannon ,  Daniel J. Hoffman ,  Matthew L. Miler ,  Olga Regelman ,  Kenneth S. Collins ,  Kartik Ramaswamy ,  Kallol Bera

IPC: H01P7/04

CPC classification number: H05H1/0081 ,  H01J37/32091 ,  H01J37/32174

Abstract: Methods and apparatus for controlling characteristics of a plasma, such as the spatial distribution of RF power and plasma uniformity, are provided herein. In some embodiments, an apparatus for controlling characteristics of a plasma includes a resonator for use in conjunction with a plasma reactor, the resonator including a source resonator for receiving an RF signal having a first frequency; a return path resonator disposed substantially coaxially with, and at least partially within, the source resonator; and an outer conductor having the source resonator and the return path resonator disposed substantially coaxially with, and at least partially within, the outer conductor, the outer conductor for providing an RF ground connection.

Abstract translation: 本文提供了用于控制等离子体特性的方法和装置，例如RF功率和等离子体均匀性的空间分布。 在一些实施例中，用于控制等离子体特性的装置包括与等离子体电抗器结合使用的谐振器，所述谐振器包括用于接收具有第一频率的RF信号的源谐振器; 与所述源谐振器基本同轴并且至少部分地在所述源谐振器内设置的返回路径谐振器; 以及具有源极谐振器和返回路径谐振器的外部导体，该外部导体与外部导体大致同轴并至少部分地设置，外部导体用于提供RF接地连接。

公开(公告)号：US20090120367A1

公开(公告)日：2009-05-14

申请号：US11985579

申请日：2007-11-14

Applicant: Peter I. Porshnev ,  Majeed A. Foad ,  Kartik Ramaswamy ,  Biagio Gallo ,  Hiroji Hanawa ,  Andrew Nguyen ,  Kenneth S. Collins ,  Amir Al-Bayati

Inventor： Peter I. Porshnev ,  Majeed A. Foad ,  Kartik Ramaswamy ,  Biagio Gallo ,  Hiroji Hanawa ,  Andrew Nguyen ,  Kenneth S. Collins ,  Amir Al-Bayati

IPC: C23C16/513

CPC classification number: H01J37/32642 ,  H01J37/32412

Abstract: The disclosure concerns a process ring for the wafer support pedestal of a toroidal source plasma immersion ion implantation reactor. The process ring improves edge uniformity by providing a continuous surface extending beyond the wafer edge, in one embodiment. In another embodiment, the process ring includes a floating electrode that functions as an extension of the wafer support electrode by RF coupling at the bias frequency.

Abstract translation: 本公开涉及用于环形源等离子体浸入式离子注入反应器的晶片支撑基座的工艺环。 在一个实施例中，处理环通过提供延伸超过晶片边缘的连续表面来提高边缘均匀性。 在另一个实施例中，处理环包括浮动电极，其通过在偏置频率下的RF耦合用作晶片支撑电极的延伸。

公开(公告)号：US07429532B2

公开(公告)日：2008-09-30

申请号：US11199592

申请日：2005-08-08

Applicant: Kartik Ramaswamy ,  Hiroji Hanawa ,  Biagio Gallo ,  Kenneth S. Collins ,  Kai Ma ,  Vijay Parihar ,  Dean Jennings ,  Abhilash J. Mayur ,  Amir Al-Bayati ,  Andrew Nguyen

Inventor： Kartik Ramaswamy ,  Hiroji Hanawa ,  Biagio Gallo ,  Kenneth S. Collins ,  Kai Ma ,  Vijay Parihar ,  Dean Jennings ,  Abhilash J. Mayur ,  Amir Al-Bayati ,  Andrew Nguyen

IPC: H01L21/302

CPC classification number: H01L21/0332 ,  G03F1/54 ,  G03F1/68 ,  G03F7/202 ,  H01L21/3081 ,  H01L21/3086

Abstract: A method of processing a thin film structure on a semiconductor substrate using an optically writable mask, the method includes placing the substrate in a reactor chamber, the substrate having on its surface a target layer to be exposed to a light source in accordance with a predetermined pattern, depositing an optically writable carbon-containing mask layer on the substrate by (a) introducing a carbon-containing process gas into the chamber, (b) generating a reentrant toroidal RF plasma current in a reentrant path that includes a process zone overlying the workpiece by coupling plasma RF source power to an external portion of the reentrant path, (c) coupling RF plasma bias power or bias voltage to the workpiece. The method further includes optically writing on the carbon-containing mask layer in accordance with the predetermined pattern with writing light of a characteristic suitable for transforming the transparency or opacity of the optically writable mask layer and exposing through the mask layer the target layer with reading light of a characteristic different from that of the writing light.

Abstract translation: 一种使用光学可写掩模在半导体衬底上处理薄膜结构的方法，所述方法包括将衬底放置在反应室中，所述衬底在其表面上具有根据预定的暴露于光源的靶层 （a）将含碳工艺气体引入所述室中，（b）在可折入路径中产生可重入环形的RF等离子体电流，所述折返路径包括位于所述腔内的过程区域 通过将等离子体RF源功率耦合到可折入路径的外部部分，（c）将RF等离子体偏置功率或偏置电压耦合到工件。 该方法还包括根据预定图案，用适合于转换光学可写掩膜层的透明度或不透明度的特性的光进行光学写入，并通过掩模层曝光目标层与读取光 具有与书写光不同的特征。

公开(公告)号：US20080182418A1

公开(公告)日：2008-07-31

申请号：US11733858

申请日：2007-04-11

Applicant: Kenneth S. Collins ,  Hiroji Hanawa ,  Kartik Ramaswamy ,  Douglas A. Buchberger ,  Shahid Rauf ,  Kallol Bera ,  Lawrence Wong ,  Walter R. Merry ,  Matthew L. Miller ,  Steven C. Shannon ,  Andrew Nguyen ,  James P. Cruse ,  James Carducci ,  Troy S. Detrick ,  Subhash Deshmukh ,  Jennifer Y. Sun

Inventor： Kenneth S. Collins ,  Hiroji Hanawa ,  Kartik Ramaswamy ,  Douglas A. Buchberger ,  Shahid Rauf ,  Kallol Bera ,  Lawrence Wong ,  Walter R. Merry ,  Matthew L. Miller ,  Steven C. Shannon ,  Andrew Nguyen ,  James P. Cruse ,  James Carducci ,  Troy S. Detrick ,  Subhash Deshmukh ,  Jennifer Y. Sun

IPC: H01L21/302 ,  H01L21/461

CPC classification number: C23C16/45574 ,  C23C16/5096 ,  H01J37/32091 ,  H01J37/32165 ,  H01J37/32174 ,  H01L21/67069 ,  H01L21/6831

Abstract: A method of processing a workpiece in a plasma reactor chamber includes coupling RF power via an electrode to plasma in the chamber, the RF power being of a variable frequency in a frequency range that includes a fundamental frequency f. The method also includes coupling the electrode to a resonator having a resonant VHF frequency F which is a harmonic of the fundamental frequency f, so as to produce VHF power at the harmonic. The method controls the ratio of power near the fundamental f to power at harmonic F, by controlling the proportion of power from the generator that is up-converted from f to F, so as to control plasma ion density distribution.

Abstract translation: 在等离子体反应器室中处理工件的方法包括经由电极将RF功率耦合到腔室中的等离子体，RF功率在包括基频f的频率范围内是可变频率的。 该方法还包括将电极耦合到具有作为基频f的谐波的谐振VHF频率F的谐振器，以便在谐波处产生VHF功率。 该方法通过控制从f向F转换为F的发电机的功率比例来控制基波f附近的功率与谐波F功率的比值，以便控制等离子体离子密度分布。

公开(公告)号：US20080182417A1

公开(公告)日：2008-07-31

申请号：US11733767

申请日：2007-04-11

Applicant: Kenneth S. Collins ,  Hiroji Hanawa ,  Kartik Ramaswamy ,  Douglas A. Buchberger ,  Shahid Rauf ,  Kallol Bera ,  Lawrence Wong ,  Walter R. Merry ,  Matthew L. Miller ,  Steven C. Shannon ,  Andrew Nguyen ,  James P. Cruse ,  James Carducci ,  Troy S. Detrick ,  Subhash Deshmukh ,  Jennifer Y. Sun

Inventor： Kenneth S. Collins ,  Hiroji Hanawa ,  Kartik Ramaswamy ,  Douglas A. Buchberger ,  Shahid Rauf ,  Kallol Bera ,  Lawrence Wong ,  Walter R. Merry ,  Matthew L. Miller ,  Steven C. Shannon ,  Andrew Nguyen ,  James P. Cruse ,  James Carducci ,  Troy S. Detrick ,  Subhash Deshmukh ,  Jennifer Y. Sun

IPC: H01L21/302 ,  H01L21/461

CPC classification number: C23C16/45574 ,  C23C16/5096 ,  H01J37/32091 ,  H01J37/32165 ,  H01J37/32174 ,  H01L21/67069 ,  H01L21/6831

Abstract: In a plasma reactor chamber a ceiling electrode and a workpiece support electrode, respective RF power sources of respective VHF frequencies f1 and f2 are coupled to either respective ones of the electrodes or to a common one of the electrodes, where f1 is sufficiently high to produce a center-high non-uniform plasma ion distribution and f2 is sufficiently low to produce a center-low non-uniform plasma ion distribution. Respective center ground return paths are provided for RF current passing directly between the ceiling electrode and the workpiece support electrode for the frequencies f1 and f2, and an edge ground return path is provided for each of the frequencies f1 and f2. The impedance of at least one of the ground return paths is adjusted so as to control the uniformity of the plasma ion density distribution.

Abstract translation: 在等离子体反应器室中，天花板电极和工件支撑电极，各个VHF频率f1和f2的相应RF功率源耦合到电极中的相应电极或共同的一个电极，其中f1足够高以产生 中心高的不均匀等离子体离子分布和f2足够低以产生中心 - 低不均匀的等离子体离子分布。 提供各自的中心接地返回路径用于频率f1和f2直接通过天花板电极和工件支撑电极之间的RF电流，并为每个频率f1和f2提供边缘接地返回路径。 调整至少一个接地返回路径的阻抗，以便控制等离子体离子密度分布的均匀性。

公开(公告)号：US20080179291A1

公开(公告)日：2008-07-31

申请号：US11801409

申请日：2007-05-08

Applicant: Kenneth S. Collins ,  Hiroji Hanawa ,  Andrew Nguyen ,  Shahid Rauf ,  Ajit Balakrishna ,  Valentin N. Todorow ,  Kartik Ramaswamy ,  Martin Jeffrey Salinas ,  Imad Yousif ,  Walter R. Merry ,  Ying Rui ,  Michael R. Rice

Inventor： Kenneth S. Collins ,  Hiroji Hanawa ,  Andrew Nguyen ,  Shahid Rauf ,  Ajit Balakrishna ,  Valentin N. Todorow ,  Kartik Ramaswamy ,  Martin Jeffrey Salinas ,  Imad Yousif ,  Walter R. Merry ,  Ying Rui ,  Michael R. Rice

IPC: C23F1/00

CPC classification number: B08B7/00 ,  B08B7/0035 ,  H01J37/32357 ,  H01J37/3244 ,  H01L21/0206 ,  H01L21/02063 ,  H01L21/0209 ,  H01L21/67069 ,  H01L21/67115 ,  H01L21/68764

Abstract: A process is provided for removing polymer from a backside of a workpiece and/or photoresist from a front side of the workpiece. For backside polymer removal, the wafer is positioned near the ceiling to above a localized or remote plasma source having a side outlet through the sidewall of the chamber, and backside polymer is removed by rotating the workpiece while flowing plasma by-products from the side outlet to the wafer backside. For front side photoresist removal, the wafer is positioned away from the ceiling and below the side outlet of the localized plasma source, and front side photoresist is remove by rotating the workpiece while flowing plasma by-products from the side outlet to the wafer front side.

Abstract translation: 提供了用于从工件的前侧从工件和/或光致抗蚀剂的背面去除聚合物的方法。 对于背面聚合物去除，晶片位于天花板附近，位于具有通过室的侧壁的侧出口的局部或远程等离子体源的上方，并且通过在从侧面出口流动等离子体副产物的同时旋转工件来去除背面聚合物 到晶圆背面。 对于前侧光致抗蚀剂去除，晶片远离天花板并位于局部等离子体源的侧出口下方，并且通过在从侧出口流到晶片正面的等离子体副产物流动的同时旋转工件来除去前侧光致抗蚀剂 。

公开(公告)号：US20080179289A1

公开(公告)日：2008-07-31

申请号：US11685769

申请日：2007-03-14

Applicant: KENNETH S. COLLINS ,  Hiroji Hanawa ,  Andrew Nguyen ,  Ajit Balakrishna ,  David Palagashvili ,  James P. Cruse ,  Jennifer Y. Sun ,  Valentin N. Todorov ,  Shahid Rauf ,  Kartik Ramaswamy ,  Gerhard M. Schneider ,  Imad Yousif ,  Martin Jeffrey Salinas

Inventor： KENNETH S. COLLINS ,  Hiroji Hanawa ,  Andrew Nguyen ,  Ajit Balakrishna ,  David Palagashvili ,  James P. Cruse ,  Jennifer Y. Sun ,  Valentin N. Todorov ,  Shahid Rauf ,  Kartik Ramaswamy ,  Gerhard M. Schneider ,  Imad Yousif ,  Martin Jeffrey Salinas

IPC: C23F1/00

CPC classification number: H01L21/68764 ,  H01J37/32357 ,  H01J37/32366 ,  H01L21/67069 ,  H01L21/67115 ,  H01L21/68728

Abstract: A process is provided for removing polymer from a backside of a workpiece. The process includes supporting the workpiece on the backside in a vacuum chamber while leaving a peripheral annular portion of the backside exposed. The process further includes confining gas flow at an edge of the workpiece within a gap at the edge of the workpiece on the order of about 1% of the diameter of the chamber, the gap defining a boundary between an upper process zone containing the front side and a lower process zone containing the backside. A first plasma is generated in a local plasma chamber from a polymer etch precursor gas. The process includes directing a localized stream of an etchant by-product from the first plasma onto a target portion of the backside of the workpiece, the target portion having a diameter corresponding to a diameter of the stream, while rotating the workpiece.

Abstract translation: 提供了从工件的背面除去聚合物的方法。 该工艺包括在真空室的背面支撑工件，同时使背面的外围环形部分露出。 该方法还包括将工件的边缘处的气流限制在工件边缘的间隙中约为室直径的约1％，间隙限定了包含前侧的上工艺区域之间的边界 和一个含有背面的下部工艺区。 在聚合物蚀刻前体气体的局部等离子体室中产生第一等离子体。 该方法包括将来自第一等离子体的蚀刻剂副产物的局部流引导到工件的背面的目标部分上，目标部分具有对应于流的直径的直径，同时旋转工件。

公开(公告)号：US20080179287A1

公开(公告)日：2008-07-31

申请号：US11685766

申请日：2007-03-14

Applicant: Kenneth S. Collins ,  Hirojii Hanawa ,  Andrew Nguyen ,  Ajit Balakrishna ,  David Palagashvili ,  James P. Cruse ,  Jennifer Y. Sun ,  Valentin N. Todorow ,  Shahid Rauf ,  Kartik Ramaswamy ,  Gerhard M. Schneider ,  Imad Yousif ,  Martin Jeffrey Salinas

Inventor： Kenneth S. Collins ,  Hirojii Hanawa ,  Andrew Nguyen ,  Ajit Balakrishna ,  David Palagashvili ,  James P. Cruse ,  Jennifer Y. Sun ,  Valentin N. Todorow ,  Shahid Rauf ,  Kartik Ramaswamy ,  Gerhard M. Schneider ,  Imad Yousif ,  Martin Jeffrey Salinas

IPC: C23F1/00

CPC classification number: H01L21/0209 ,  H01L21/02063 ,  H01L21/31138

Abstract: A process is provided for removing polymer from a backside of a workpiece. The process includes supporting the workpiece on the backside in a vacuum chamber while leaving a peripheral annular portion of the backside exposed. Gas flow is confined at the edge of the workpiece within a gap at the edge of the workpiece, the gap configured to be on the order of about 1% of the diameter of the chamber, the gap defining a boundary between an upper process zone containing the front side and a lower process zone containing the backside. The process further includes evacuating the lower process zone, generating a plasma in an external chamber from a polymer etch precursor gas, and introducing a by-product from the plasma into the lower process zone. The process further includes pumping a purge gas into the upper process zone to remove polymer etch species from the upper process zone.

Abstract translation: 提供了从工件的背面除去聚合物的方法。 该工艺包括在真空室的背面支撑工件，同时使背面的外围环形部分露出。 气体流动被限制在工件的边缘处的工件边缘的间隙内，该间隙构造成约为室直径的约1％，间隙限定了含有 前侧和一个含有背面的下部工艺区。 该方法进一步包括排空下部工艺区域，从聚合物蚀刻前体气体在外部室中产生等离子体，以及将副产物从等离子体引入下部工艺区域。 该方法还包括将净化气体泵入上部工艺区域以从上部工艺区域去除聚合物蚀刻物质。