Patents by Inventor Michael Grimbergen
Michael Grimbergen 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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Patent number: 10453696Abstract: The present invention provides a method and apparatus for etching a photomask substrate with enhanced process monitoring, for example, by providing for optical monitoring at certain regions of the photomask to obtain dual endpoints, e.g., etch rate or thickness loss of both a photoresist layer and an absorber layer. By monitoring transmissity of an optical beam transmitted through areas having photoresist layer and etched absorber layer at two different predetermined wavelength, dual process endpoints may be obtained by a signal optical detection.Type: GrantFiled: October 5, 2017Date of Patent: October 22, 2019Assignee: APPLIED MATERIALS, INC.Inventor: Michael Grimbergen
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Publication number: 20180047574Abstract: The present invention provides a method and apparatus for etching a photomask substrate with enhanced process monitoring, for example, by providing for optical monitoring at certain regions of the photomask to obtain dual endpoints, e.g., etch rate or thickness loss of both a photoresist layer and an absorber layer. By monitoring transmissity of an optical beam transmitted through areas having photoresist layer and etched absorber layer at two different predetermined wavelength, dual process endpoints may be obtained by a signal optical detection.Type: ApplicationFiled: October 5, 2017Publication date: February 15, 2018Inventor: Michael GRIMBERGEN
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Patent number: 9142467Abstract: A method and apparatus for etching a photomask substrate with enhanced process monitoring is provided. In one embodiment, a method of determining an etching endpoint includes performing an etching process on a first tantalum containing layer through a patterned mask layer, directing a radiation source having a first wavelength from about 200 nm and about 800 nm to an area uncovered by the patterned mask layer, collecting an optical signal reflected from the area covered by the patterned mask layer, analyzing a waveform obtained the reflected optical signal reflected from the substrate from a first time point to a second time point, and determining a first endpoint of the etching process when a slope of the waveform is changed about 5 percent from the first time point to the second time point.Type: GrantFiled: December 2, 2014Date of Patent: September 22, 2015Assignee: APPLIED MATERIALS, INC.Inventor: Michael Grimbergen
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Publication number: 20150111315Abstract: A method and apparatus for etching a photomask substrate with enhanced process monitoring is provided. In one embodiment, a method of determining an etching endpoint includes performing an etching process on a first tantalum containing layer through a patterned mask layer, directing a radiation source having a first wavelength from about 200 nm and about 800 nm to an area uncovered by the patterned mask layer, collecting an optical signal reflected from the area covered by the patterned mask layer, analyzing a waveform obtained the reflected optical signal reflected from the substrate from a first time point to a second time point, and determining a first endpoint of the etching process when a slope of the waveform is changed about 5 percent from the first time point to the second time point.Type: ApplicationFiled: December 2, 2014Publication date: April 23, 2015Inventor: Michael GRIMBERGEN
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Patent number: 8956809Abstract: The present invention provides methods for etching a quartz substrate using a second level photoresist layer disposed thereon as an etching mask. In one embodiment, a method of etching a quartz substrate for forming a photomask includes providing a quartz substrate having a metal containing layer disposed thereon in an etch chamber, applying a first photoresist layer on a substrate, patterning the first photoresist layer to remove a first region of the metal containing layer to expose a first portion of the quartz substrate while remaining a second region of the metal containing layer on the quartz substrate, removing the remaining first photoresist layer on the quartz substrate, applying a second photoresist layer on the exposed quartz substrate and the second region of the metal containing layer, patterning the second photoresist layer to form openings in the second photoresist layer exposing the underlying quartz substrate, and etching the quartz substrate defined by the patterned second photoresist layer.Type: GrantFiled: January 25, 2013Date of Patent: February 17, 2015Assignee: Applied Materials, Inc.Inventor: Michael Grimbergen
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Patent number: 8900469Abstract: A method and apparatus for etching a photomask substrate with enhanced process monitoring is provided. In one embodiment, a method of determining an etching endpoint includes performing an etching process on a first tantalum containing layer through a patterned mask layer, directing a radiation source having a first wavelength from about 200 nm and about 800 nm to an area uncovered by the patterned mask layer, collecting an optical signal reflected from the area covered by the patterned mask layer, analyzing a waveform obtained the reflected optical signal reflected from the substrate from a first time point to a second time point, and determining a first endpoint of the etching process when a slope of the waveform is changed about 5 percent from the first time point to the second time point.Type: GrantFiled: July 6, 2012Date of Patent: December 2, 2014Assignee: Applied Materials, Inc.Inventor: Michael Grimbergen
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Patent number: 8808559Abstract: A method and apparatus for etching a photomask substrate with enhanced process monitoring, for example, by providing for optical monitoring at different regions of the photomask to obtain desired etch rate or thickness loss is provided. In one embodiment, the method includes performing an etching process on a reflective multi-material layer that includes at least one molybdenum layer and one silicon layer through a patterned mask, directing radiation having a wavelength from about 170 nm and about 800 nm to an area of the multi-material layer uncovered by the patterned mask, collecting an optical signal reflected from the area uncovered by the patterned mask, analyzing a waveform obtained from the reflected optical signal, and determining a first endpoint of the etching process when an intensity of the reflected optical signal is between about 60 percent and about 90 percent less than an initial reflected optical signal.Type: GrantFiled: July 8, 2012Date of Patent: August 19, 2014Assignee: Applied Materials, Inc.Inventor: Michael Grimbergen
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Publication number: 20140038091Abstract: The present invention provides methods for etching a quartz substrate using a second level photoresist layer disposed thereon as an etching mask. In one embodiment, a method of etching a quartz substrate for forming a photomask includes providing a quartz substrate having a metal containing layer disposed thereon in an etch chamber, applying a first photoresist layer on a substrate, patterning the first photoresist layer to remove a first region of the metal containing layer to expose a first portion of the quartz substrate while remaining a second region of the metal containing layer on the quartz substrate, removing the remaining first photoresist layer on the quartz substrate, applying a second photoresist layer on the exposed quartz substrate and the second region of the metal containing layer, patterning the second photoresist layer to form openings in the second photoresist layer exposing the underlying quartz substrate, and etching the quartz substrate defined by the patterned second photoresist layer.Type: ApplicationFiled: January 25, 2013Publication date: February 6, 2014Inventor: Michael Grimbergen
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Publication number: 20130157388Abstract: A method and apparatus for etching a photomask substrate with enhanced process monitoring is provided. In one embodiment, a method of determining an etching endpoint includes performing an etching process on a first tantalum containing layer through a patterned mask layer, directing a radiation source having a first wavelength from about 200 nm and about 800 nm to an area uncovered by the patterned mask layer, collecting an optical signal reflected from the area covered by the patterned mask layer, analyzing a waveform obtained the reflected optical signal reflected from the substrate from a first time point to a second time point, and determining a first endpoint of the etching process when a slope of the waveform is changed about 5 percent from the first time point to the second time point.Type: ApplicationFiled: July 6, 2012Publication date: June 20, 2013Inventor: Michael Grimbergen
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Publication number: 20130130409Abstract: A method and apparatus for etching a photomask substrate with enhanced process monitoring, for example, by providing for optical monitoring at different regions of the photomask to obtain desired etch rate or thickness loss is provided. In one embodiment, the method includes performing an etching process on a reflective multi-material layer that includes at least one molybdenum layer and one silicon layer through a patterned mask, directing radiation having a wavelength from about 170 nm and about 800 nm to an area of the multi-material layer uncovered by the patterned mask, collecting an optical signal reflected from the area uncovered by the patterned mask, analyzing a waveform obtained from the reflected optical signal, and determining a first endpoint of the etching process when an intensity of the reflected optical signal is between about 60 percent and about 90 percent less than an initial reflected optical signal.Type: ApplicationFiled: July 8, 2012Publication date: May 23, 2013Inventor: Michael Grimbergen
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Publication number: 20130092655Abstract: A method and apparatus for etching photomasks are provided herein. In one embodiment, a forming gas use utilized to remove a mask layer utilized film stack having a multi-material layer having at least two different materials. In another embodiment, a method of etching a multi-material layer disposed on a photomask includes providing a film stack in an etching chamber, the film stack having a multi-material layer having at least two different materials disposed therein partially exposed through a patterned layer, providing a gas mixture including at least one fluorine containing gas and an oxygen containing gas in to a processing chamber, supplying a RF power in the gas mixture to form a plasma, and etching the multi-material layer through the patterned layer.Type: ApplicationFiled: October 11, 2012Publication date: April 18, 2013Inventors: Keven Yu, Michael Grimbergen, Madhavi Chadrachood, Amitabh Sabharwal, Ajay Kumar
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Publication number: 20130048606Abstract: Embodiments of the invention include methods for in-situ chamber dry cleaning a plasma processing chamber utilized for photomask plasma fabrication process. In one embodiment, a method for in-situ chamber dry clean after photomask plasma etching includes performing an in-situ pre-cleaning process in a plasma processing chamber, supplying a pre-cleaning gas mixture including at least an oxygen containing gas into the plasma processing chamber while performing the in-situ pre-cleaning process, providing a substrate into the plasma processing chamber, performing an etching process on the substrate, removing the substrate from the substrate, and performing an in-situ post cleaning process by flowing a post cleaning gas mixture including at least an oxygen containing gas into the plasma processing chamber.Type: ApplicationFiled: August 31, 2011Publication date: February 28, 2013Inventors: Zhigang Mao, Xiaoyi Chen, Keven Yu, Michael Grimbergen, Madhavi Chandrahood, Amitabh Sabharwal, Ajay Kumar
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Patent number: 8158526Abstract: Apparatus and method for endpoint detection are provided for photomask etching. The apparatus provides a plasma etch chamber with a substrate support member. The substrate support member has at least two optical components disposed therein for use in endpoint detection. Enhanced process monitoring for photomask etching are achieved by the use of various optical measurement techniques for monitoring at different locations of the photomask.Type: GrantFiled: October 29, 2007Date of Patent: April 17, 2012Assignee: Applied Materials, Inc.Inventor: Michael Grimbergen
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Patent number: 8092695Abstract: Apparatus and method for endpoint detection are provided for photomask etching. The apparatus provides a plasma etch chamber with a substrate support member. The substrate support member has at least two optical components disposed therein for use in endpoint detection. Enhanced process monitoring for photomask etching are achieved by the use of various optical measurement techniques for monitoring at different locations of the photomask.Type: GrantFiled: October 29, 2007Date of Patent: January 10, 2012Assignee: Applied Materials, Inc.Inventor: Michael Grimbergen
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Patent number: 7829243Abstract: A method for etching a chromium layer is provided herein. In one embodiment, a method for etching a chromium layer includes providing a filmstack in an etching chamber, the filmstack having a chromium layer partially exposed through a patterned layer, providing at least one halogen containing process gas to a processing chamber, biasing the layer disposed on a substrate support in the processing chamber with a plurality of power pulses less than 600 Watts, and etching the chromium layer through a patterned mask. The method for plasma etching a chromium layer described herein is particularly suitable for fabricating photomasks.Type: GrantFiled: January 27, 2005Date of Patent: November 9, 2010Assignee: Applied Materials, Inc.Inventors: Xiaoyi Chen, Michael Grimbergen, Madhavi Chandrachood, Jeffrey X. Tran, Ajay Kumar, Simon Tam, Ramesh Krishnamurthy
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Publication number: 20090325387Abstract: Embodiments of the invention include method for in-situ chamber dry clean after photomask plasma etching. In one embodiment, the method includes placing a photomask upon a support pedestal, introducing a process gas into a process chamber, forming a plasma from the process gas, etching a chromium containing layer disposed on the photomask in the presence of the plasma, removing the photomask from the support pedestal, placing a dummy substrate on the pedestal and performing an in-situ dry cleaning process by flowing a cleaning gas containing O2 through the process chamber while the dummy substrate is disposed on the support pedestal.Type: ApplicationFiled: June 26, 2008Publication date: December 31, 2009Inventors: Xiaoyi Chen, Zhigang Mao, David Knick, Michael Grimbergen, Darin Bivens, Madhavi Chandrahood, Ibrahim Ibrahim, Ajay Kumar
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Patent number: 7632419Abstract: Apparatus for in-situ monitoring of a process in a semiconductor wafer processing system consists of a process chamber having a dome, an enclosure disposed above the chamber, a process monitoring assembly positioned proximate the dome, an opening in the dome, and a window covering the opening. A portion of the apparatus supports the process monitoring assembly to establish a line-of-sight propagation path of monitoring beams from above the dome, through the window to the substrate to facilitate etch depth measurement without encountering interference from high power energy sources proximate the chamber. A method of fabricating a process monitoring apparatus consists of the steps of boring an opening into a dome, positioning the process monitoring assembly in proximity to the dome so as to allow a line-of-sight propagation path of monitoring beams from the process monitoring assembly to a wafer, and covering the opening with a window.Type: GrantFiled: June 16, 2000Date of Patent: December 15, 2009Assignee: Applied Materials, Inc.Inventors: Michael Grimbergen, Shaoher X. Pan
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Publication number: 20090014409Abstract: Apparatus and method for endpoint detection are provided for photomask etching. The apparatus provides a plasma etch chamber with a substrate support member. The substrate support member has at least two optical components disposed therein for use in endpoint detection. Enhanced process monitoring for photomask etching are achieved by the use of various optical measurement techniques for monitoring at different locations of the photomask.Type: ApplicationFiled: October 29, 2007Publication date: January 15, 2009Inventor: Michael Grimbergen
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Publication number: 20080272089Abstract: A substrate etching apparatus comprises a chamber having a wall with a window, substrate support pedestal, energy source, and monitoring assembly with signal sensor capable of detecting reflected radiation from the substrate from directly above the substrate after the radiation propagates through the window in the wall. An etching method comprises the steps of: providing a substrate in a chamber, etching a channel or trench in the substrate by coupling energy through the wall of the chamber to energize an etch gas in the chamber, detecting radiation reflected from the substrate from directly above the substrate after the radiation propagates through the wall and evaluating the detected radiation to monitor the depth of etching of the channel or trench being etched on the substrate.Type: ApplicationFiled: July 2, 2008Publication date: November 6, 2008Inventors: Michael Grimbergen, Shaoher X. Pan
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Publication number: 20080261335Abstract: Apparatus and method for endpoint detection are provided for photomask etching. The apparatus provides a plasma etch chamber with a substrate support member. The substrate support member has at least two optical components disposed therein for use in endpoint detection. Enhanced process monitoring for photomask etching are achieved by the use of various optical measurement techniques for monitoring at different locations of the photomask.Type: ApplicationFiled: October 29, 2007Publication date: October 23, 2008Inventor: Michael Grimbergen