Patents by Inventor Zhongkui Tan
Zhongkui Tan has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20240112961Abstract: Various embodiments herein relate to systems, methods, and media for matching pre-processing and post-processing substrate samples.Type: ApplicationFiled: January 19, 2022Publication date: April 4, 2024Applicant: Lam Research CorporationInventors: Yu Lu, Yansha Jin, Zhongkui Tan, Mehmet Derya Tetiker
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Publication number: 20240030000Abstract: Systems and methods for reverse pulsing are described. One of the methods includes receiving a digital signal having a first state and a second state. The method further includes generating a transformer coupled plasma (TCP) radio frequency (RF) pulsed signal having a high state when the digital signal is in the first state and having a low state when the digital signal is in the second state. The method includes providing the TCP RF pulsed signal to one or more coils of a plasma chamber, generating a bias RF pulsed signal having a low state when the digital signal is in the first state and having a high state when the digital signal is in the second state, and providing the bias RF pulsed signal to a chuck of the plasma chamber.Type: ApplicationFiled: October 3, 2023Publication date: January 25, 2024Inventors: Maolin Long, Zhongkui Tan, Ying Wu, Qian Fu, Alex Paterson, John Drewery
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Patent number: 11798785Abstract: Systems and methods for reverse pulsing are described. One of the systems includes a controller, first and second source radio frequency (RF) generators, and first and second bias RF generators. The controller controls the first source RF generator to generate a first source pulsed signal, and controls the second source RF generator to generate a second source pulsed signal. The system includes a first match circuit that receives the first and second source pulsed signals and combines the first and second source pulsed signals. The controller controls the first bias RF generator to generate a first bias pulsed signal, and controls the second bias RF generator to generate a second bias pulsed signal. The system includes a second match circuit that receives the first and second bias pulsed signals and combines the first and second bias pulsed signals into a combined bias signal.Type: GrantFiled: September 11, 2017Date of Patent: October 24, 2023Assignee: Lam Research CorporationInventors: Maolin Long, Zhongkui Tan, Ying Wu, Qian Fu, Alex Paterson, John Drewery
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Patent number: 11742212Abstract: Methods for forming a vertical growth mask for use in etching applications are described herein. Disclosed embodiments include introducing a tungsten-containing deposition precursor and one or more carrier gases while igniting a plasma to deposit tungsten selectively on field regions of positive features of a patterned etch mask without substantial deposition on sidewalls of the positive features or on an exposed surface of a target layer underlying the patterned etch mask.Type: GrantFiled: October 29, 2019Date of Patent: August 29, 2023Assignee: Lam Research CorporationInventors: Zhongkui Tan, Lisi Xie, Yoko Yamaguchi, Yasushi Ishikawa, Patrick Ponath, Sung Jin Jung, Sangjun Park, Wonchul Lee, Jayoung Choi
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Patent number: 11646207Abstract: A method for forming a stair-step structure in a stack on a substrate is provided. The method comprises at least one stair step cycle. Each stair step cycle comprises trimming the mask and etching the stack. Etching the stack is provided in a plurality of cycles wherein each cycle comprises etching a SiO2 layer and etching a SiN layer. Etching a SiO2 layer comprises flowing a SiO2 etching gas into the plasma processing chamber, wherein the SiO2 etching gas comprises a hydrofluorocarbon, an inert bombardment gas, and at least one of SF6 and NF3, generating a plasma from the SiO2 etching gas, providing a bias, and stopping the SiO2 layer etch. The etching a SiN layer comprises flowing a SiN etching gas into the plasma processing chamber, comprising a hydrofluorocarbon and oxygen, generating a plasma from the SiN etching gas, providing a bias, and stopping the SiN layer etch.Type: GrantFiled: November 29, 2018Date of Patent: May 9, 2023Assignee: Lam Research CorporationInventors: Ce Qin, Zhongkui Tan, Qian Fu, Sam Do Lee
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Publication number: 20220301853Abstract: A method for patterning a stack having a mask with a plurality of mask features is provided. A targeted deposition is provided, wherein the targeted deposition comprises a plurality of cycles, wherein each cycle comprises flowing a precursor to deposit a layer of precursor and targeted curing the layer of precursor, comprising flowing a curing gas, flowing a modification gas, forming a plasma from the curing gas and modification gas, and exposing the layer of precursor to the plasma providing a targeted curing, wherein plasma from the curing gas cures first portions of the layer of precursor and plasma from the modification gas modifies second portions of the layer of precursor, wherein the modification of the second portion reduces curing of the layer of precursor of the second portions of the layer of precursor. The stack is etched through the targeted deposition.Type: ApplicationFiled: July 1, 2020Publication date: September 22, 2022Inventors: Wenchi LIU, Zhongkui TAN, Juan VALDIVIA, Colin Richard REMENTER, Qing XU, Yoko YAMAGUCHI, Yoshie KIMURA, Hua XIANG, Yasushi ISHIKAWA
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Publication number: 20220076962Abstract: Provided herein are methods and related apparatus for mask reconstruction in an etch process. The methods involve depositing a sacrificial layer on the mask layer. The sacrificial layer may be used to protect position on the mask layer. Following mask reshaping, the sacrificial layer may be removed using the same etch process that is used to etch the target material.Type: ApplicationFiled: February 26, 2020Publication date: March 10, 2022Applicant: Lam Research CorporationInventors: Zhongkui Tan, Xiaofeng Su, Hua Xiang, Ce Qin
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Publication number: 20220028697Abstract: Methods for forming a vertical growth mask for use in etching applications are described herein. Disclosed embodiments include introducing a tungsten-containing deposition precursor and one or more carrier gases while igniting a plasma to deposit tungsten selectively on field regions of positive features of a patterned etch mask without substantial deposition on sidewalls of the positive features or on an exposed surface of a target layer underlying the patterned etch mask.Type: ApplicationFiled: October 29, 2019Publication date: January 27, 2022Inventors: Zhongkui Tan, Lisi Xie, Yoko Yamaguchi, Yasushi Ishikawa, Patrick Ponath, Sung Jin Jung, Sangjun Park, Wonchul Lee, Jayoung Choi
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Publication number: 20210407811Abstract: A method for forming a stair-step structure in a stack on a substrate is provided. The method comprises at least one stair step cycle. Each stair step cycle comprises trimming the mask and etching the stack. Etching the stack is provided in a plurality of cycles wherein each cycle comprises etching a SiO2 layer and etching a SiN layer. Etching a SiO2 layer comprises flowing a SiO2 etching gas into the plasma processing chamber, wherein the SiO2 etching gas comprises a hydrofluorocarbon, an inert bombardment gas, and at least one of SF6 and NF3, generating a plasma from the SiO2 etching gas, providing a bias, and stopping the SiO2 layer etch. The etching a SiN layer comprises flowing a SiN etching gas into the plasma processing chamber, comprising a hydrofluorocarbon and oxygen, generating a plasma from the SiN etching gas, providing a bias, and stopping the SiN layer etch.Type: ApplicationFiled: November 29, 2018Publication date: December 30, 2021Inventors: Ce QIN, Zhongkui TAN, Qian FU, Sam Do LEE
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Patent number: 11049726Abstract: A substrate is disposed on a substrate holder within a process module. The substrate includes a mask material overlying a target material with at least one portion of the target material exposed through an opening in the mask material. A plasma is generated in exposure to the substrate. For a first duration, a bias voltage is applied at the substrate holder at a first bias voltage setting corresponding to a high bias voltage level. For a second duration, after completion of the first duration, a bias voltage is applied at the substrate holder at a second bias voltage setting corresponding to a low bias voltage level. The second bias voltage setting is greater than 0 V. The first and second durations are repeated in an alternating and successive manner for an overall period of time necessary to remove a required amount of the target material exposed on the substrate.Type: GrantFiled: November 20, 2017Date of Patent: June 29, 2021Assignee: Lam Research CorporationInventors: Zhongkui Tan, Qian Fu, Ying Wu, Qing Xu, John Drewery
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Publication number: 20210193474Abstract: A substrate is disposed on a substrate holder within a process module. The substrate includes a mask material overlying a target material with at least one portion of the target material exposed through an opening in the mask material. A plasma is generated in exposure to the substrate. For a first duration, a bias voltage is applied at the substrate holder at a first bias voltage setting corresponding to a high bias voltage level. For a second duration, after completion of the first duration, a bias voltage is applied at the substrate holder at a second bias voltage setting corresponding to a low bias voltage level. The second bias voltage setting is greater than 0 V. The first and second durations are repeated in an alternating and successive manner for an overall period of time necessary to remove a required amount of the target material exposed on the substrate.Type: ApplicationFiled: March 9, 2021Publication date: June 24, 2021Inventors: Zhongkui Tan, Qian Fu, Ying Wu, Qing Xu, John Drewery
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Patent number: 11037784Abstract: A method for opening an amorphous carbon layer mask below a hardmask is provided. The opening an amorphous carbon layer mask comprises performing one or more cycles, where each cycle comprises an amorphous carbon layer mask opening phase and a cleaning phase. The amorphous carbon layer mask opening phase comprises flowing an opening gas into a plasma processing chamber, wherein the opening gas comprises an oxygen containing component, creating a plasma from the opening gas, which etches features in the amorphous carbon layer mask, and stopping the flow of the opening gas. The cleaning phase comprises flowing a cleaning gas into the plasma processing chamber, wherein the cleaning gas comprises a hydrogen containing component, a carbon containing component, and a halogen containing component, creating a plasma from the cleaning gas; and stopping the flow of the cleaning gas into the plasma processing chamber.Type: GrantFiled: January 28, 2019Date of Patent: June 15, 2021Assignee: Lam Research CorporationInventors: Ce Qin, Zhongkui Tan, Yisha Mao, Yansha Jin, Austin Casey Faucett
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Patent number: 10943789Abstract: A substrate is disposed on a substrate holder within a process module. The substrate includes a mask material overlying a target material with at least one portion of the target material exposed through an opening in the mask material. A plasma is generated in exposure to the substrate. For a first duration, a bias voltage is applied at the substrate holder at a first bias voltage setting corresponding to a high bias voltage level. For a second duration, after completion of the first duration, a bias voltage is applied at the substrate holder at a second bias voltage setting corresponding to a low bias voltage level. The second bias voltage setting is greater than 0 V. The first and second durations are repeated in an alternating and successive manner for an overall period of time necessary to remove a required amount of the target material exposed on the substrate.Type: GrantFiled: November 21, 2017Date of Patent: March 9, 2021Assignee: Lam Research CorporationInventors: Zhongkui Tan, Qian Fu, Ying Wu, Qing Xu, John Drewery
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Publication number: 20210035796Abstract: A method for opening an amorphous carbon layer mask below a hardmask is provided. The opening an amorphous carbon layer mask comprises performing one or more cycles, where each cycle comprises an amorphous carbon layer mask opening phase and a cleaning phase. The amorphous carbon layer mask opening phase comprises flowing an opening gas into a plasma processing chamber, wherein the opening gas comprises an oxygen containing component, creating a plasma from the opening gas, which etches features in the amorphous carbon layer mask, and stopping the flow of the opening gas. The cleaning phase comprises flowing a cleaning gas into the plasma processing chamber, wherein the cleaning gas comprises a hydrogen containing component, a carbon containing component, and a halogen containing component, creating a plasma from the cleaning gas; and stopping the flow of the cleaning gas into the plasma processing chamber.Type: ApplicationFiled: January 28, 2019Publication date: February 4, 2021Inventors: Ce QIN, Zhongkui TAN, Yisha MAO, Yansha JIN, Austin Casey FAUCETT
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Patent number: 10658194Abstract: A method for processing a substrate in a processing chamber, comprising forming a deposition over the substrate is provided. A silicon containing gas is flowed into the processing chamber. A COS containing gas is flowed into the processing chamber. A plasma is formed from the silicon containing gas and the COS containing gas in the processing chamber, wherein the plasma provides the deposition over the substrate.Type: GrantFiled: August 23, 2016Date of Patent: May 19, 2020Assignee: Lam Research CorporationInventors: Zhongkui Tan, Qing Xu, Qian Fu, Hua Xiang, Lin Zhao
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Publication number: 20190341275Abstract: A method for performing a cleaning process in a processing chamber includes, without a substrate arranged on a substrate support of the processing chamber, supplying reactant gases in a side gas flow via side tuning holes of a gas distribution device to effect deposition of a coating on an edge ring of the substrate support. The side gas flow targets an outer region of the processing chamber above the edge ring, and the reactant gases are supplied at a first flow rate. The method further includes, while supplying the reactant gases via the side tuning holes, supplying inert gases in a center gas flow via center holes of the gas distribution device. The inert gases are supplied at a second flow rate that is greater than the first flow rate.Type: ApplicationFiled: May 7, 2018Publication date: November 7, 2019Inventors: Yansha JIN, Zhongkui Tan, Tyler Kent, Haoquan Yan, Qian Fu, Anthony Contreras
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Patent number: 10354888Abstract: Methods for anisotropically etching a tungsten-containing material (such as doped or undoped tungsten metal) include cyclic treatment of tungsten surface with Cl2 plasma and with oxygen-containing radicals. Treatment with chlorine plasma is performed while the substrate is electrically biased resulting in predominant etching of horizontal surfaces on the substrate. Treatment with oxygen-containing radicals passivates the surface of the substrate to etching, and protects the vertical surfaces of the substrate, such as sidewalls of recessed features, from etching. Treatment with Cl2 plasma and with oxygen-containing radicals can be repeated in order to remove a desired amount of material. Anisotropic etching can be performed selectively in a presence of dielectric materials such as silicon oxide, silicon nitride, and silicon oxynitride.Type: GrantFiled: March 20, 2017Date of Patent: July 16, 2019Assignee: Lam Research CorporationInventors: Zhongkui Tan, Qian Fu, Huai-Yu Hsiao
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Patent number: 10242845Abstract: A substrate is positioned on a substrate support structure within a plasma processing volume of an inductively coupled plasma processing chamber. A first radiofrequency signal is supplied from a first radiofrequency signal generator to a coil disposed outside of the plasma processing volume to generate a plasma in exposure to the substrate. A second radiofrequency signal is supplied from a second radiofrequency signal generator to an electrode within the substrate support structure. The first and second radiofrequency signal generators are controlled independent of each other. The second radiofrequency signal has a frequency greater than or equal to about 27 megaHertz. The second radiofrequency signal generates supplemental plasma density at a level of the substrate within the plasma processing volume while generating a bias voltage of less than about 200 volts at the level of the substrate.Type: GrantFiled: January 17, 2017Date of Patent: March 26, 2019Assignee: Lam Research CorporationInventors: Zhongkui Tan, Yiting Zhang, Qian Fu, Qing Xu, Ying Wu, Saravanapriyan Sriraman, Alex Paterson
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Patent number: 10177003Abstract: A substrate is disposed on a substrate holder within a process module. The substrate includes a mask material overlying a target material with at least one portion of the target material exposed through an opening in the mask material. A bi-modal process gas composition is supplied to a plasma generation region overlying the substrate. For a first period of time, a first radiofrequency power is applied to the bi-modal process gas composition to generate a plasma to cause etching-dominant effects on the substrate. For a second period of time, after completion of the first period of time, a second radiofrequency power is applied to the bi-modal process gas composition to generate the plasma to cause deposition-dominant effects on the substrate. The first and second radiofrequency powers are applied in an alternating and successive manner for an overall period of time to remove a required amount of exposed target material.Type: GrantFiled: June 6, 2017Date of Patent: January 8, 2019Assignee: Lam Research CorporationInventors: Zhongkui Tan, Qian Fu, Ying Wu, Qing Xu, Hua Xiang
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Publication number: 20180204708Abstract: A substrate is positioned on a substrate support structure within a plasma processing volume of an inductively coupled plasma processing chamber. A first radiofrequency signal is supplied from a first radiofrequency signal generator to a coil disposed outside of the plasma processing volume to generate a plasma in exposure to the substrate. A second radiofrequency signal is supplied from a second radiofrequency signal generator to an electrode within the substrate support structure. The first and second radiofrequency signal generators are controlled independent of each other. The second radiofrequency signal has a frequency greater than or equal to about 27 megaHertz. The second radiofrequency signal generates supplemental plasma density at a level of the substrate within the plasma processing volume while generating a bias voltage of less than about 200 volts at the level of the substrate.Type: ApplicationFiled: January 17, 2017Publication date: July 19, 2018Inventors: Zhongkui Tan, Yiting Zhang, Qian Fu, Qing Xu, Ying Wu, Saravanapriyan Sriraman, Alex Paterson