Patents Assigned to MATTSON TECHNOLOGY, IN
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Publication number: 20160013025Abstract: Systems and methods for protecting vacuum seals in a plasma processing system are provided. The processing system can include a vacuum chamber defining a sidewall and an inductive coil wrapped around at least a portion of the sidewall. A vacuum seal can be positioned between the sidewall of the vacuum chamber and a heat sink. A thermally conductive bridge can be coupled between the sidewall and heat sink. Further, the thermally conductive bridge can be positioned relative to the vacuum seal such that the thermally conductive bridge redirects a conductive heat path from the sidewall or any heat source to the heat sink so that the heat path bypasses the vacuum seal.Type: ApplicationFiled: May 9, 2014Publication date: January 14, 2016Applicant: Mattson Technology, Inc.Inventors: Vladimir Nagorny, Steven Parks, Martin Zucker
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Patent number: 9214319Abstract: A plasma reactor and method for improved gas injection for an inductive plasma source for dry strip plasma processing are disclosed. According to embodiments of the present disclosure, gas is fed into a plasma chamber through a gas injection channel located adjacent to the side wall of the plasma chamber, rather than from the center, so that the process gas enters the plasma chamber in a close proximity to the induction coil. In particular embodiments, the process gas that enters the chamber is forced to pass through a reactive volume or active region adjacent the induction coil where efficient heating of electrons occurs, providing increased efficiency of the reactor by improving process gas flow and confinement in the heating area.Type: GrantFiled: July 30, 2012Date of Patent: December 15, 2015Assignee: Mattson Technology, Inc.Inventors: Vladimir Nagorny, Charles Crapuchettes
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Patent number: 9184072Abstract: An apparatus and method are described for processing workpieces in a treatment process. A multi-wafer chamber defines a chamber interior including at least two processing stations within the chamber interior such that the processing stations share the chamber interior. Each processing station includes a plasma source and a workpiece pedestal for exposing one of the workpieces to the treatment process using a respective plasma source. The chamber includes an arrangement of one or more electrically conductive surfaces that are asymmetrically disposed about the workpiece at each processing station in a way which produces a given level of uniformity of the treatment process on a major surface of each workpiece. A shield arrangement provides an enhanced uniformity of exposure of the workpiece to the respective one of the plasma sources that is greater than the given level of uniformity that would be provided in an absence of the shield arrangement.Type: GrantFiled: July 27, 2007Date of Patent: November 10, 2015Assignee: Mattson Technology, Inc.Inventors: Daniel J. Devine, Charles Crapuchettes, Dixit Desai, Rene George, Vincent C. Lee, Yuya Matsuda, Jonathan Mohn, Ryan M. Pakulski, Stephen E. Savas, Martin Zucker
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Patent number: 9070590Abstract: Methods and apparatus for heat-treating a workpiece are disclosed. An illustrative method includes measuring deformation of a workpiece during heat-treating thereof, and taking an action in relation to the heat-treating of the workpiece, in response to the measuring of the deformation of the workpiece. The workpiece may include a semiconductor wafer. Taking an action may include applying a deformation correction to a temperature or reflectivity measurement of the wafer during thermal processing, or may include modifying the heat-treating of the wafer, for example.Type: GrantFiled: May 15, 2009Date of Patent: June 30, 2015Assignee: Mattson Technology, Inc.Inventors: David Malcolm Camm, Joseph Cibere, Greg Stuart, Steve McCoy
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Patent number: 8992725Abstract: The plasma reactor of the invention is intended for treating the surfaces of objects such as semiconductor wafers and large display panels, or the like, with plasma. The main part of the plasma reactor is an array of RF antenna cells, which are deeply immersed into the interior of the working chamber. Each antenna cell has a ferromagnetic core with a heat conductor and a coil wound onto the core. The core and coil are sealed in the protective cap. Deep immersion of the antenna cells having the structure of the invention provides high efficiency of plasma excitation, while the arrangement of the plasma cells and possibility of their individual adjustment provide high uniformity of plasma distribution and possibility of adjusting plasma parameters, such as plasma density, in a wide range.Type: GrantFiled: August 23, 2007Date of Patent: March 31, 2015Assignee: Mattson Technology, Inc.Inventor: Valery Godyak
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Publication number: 20150035436Abstract: An apparatus for generating electromagnetic radiation includes an envelope, a vortex generator configured to generate a vortexing flow of liquid along an inside surface of the envelope, first and second electrodes within the envelope configured to generate a plasma arc therebetween, and an insulative housing associated surrounding at least a portion of an electrical connection to one of the electrodes. The apparatus further includes a shielding system configured to block electromagnetic radiation emitted by the arc to prevent the electromagnetic radiation from striking all inner surfaces of the insulative housing. The apparatus further includes a cooling system configured to cool the shielding system.Type: ApplicationFiled: February 24, 2012Publication date: February 5, 2015Applicant: MATTSON TECHNOLOGY, INC.Inventors: Amar B. Kamdar, David Malcolm Camm, Mladen Bumbulovic, Peter Lembesis
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Patent number: 8920600Abstract: A method and apparatus are provided for processing a substrate with a radiofrequency inductive plasma in the manufacture of a device. The inductive plasma is maintained with an inductive plasma applicator having one or more inductive coupling elements. There are thin windows between the inductive coupling elements and the interior of the processing chamber. Various embodiments have magnetic flux concentrators in the inductive coupling elements and feed gas holes interspersed among the inductive coupling elements. The thin windows, magnetic flux concentrators, and interspersed feed gas holes are useful to effectuate uniform processing, high power transfer efficiency, and a high degree of coupling between the applicator and plasma. In some embodiments, capacitive current is suppressed using balanced voltage to power an inductive coupling element.Type: GrantFiled: August 22, 2007Date of Patent: December 30, 2014Assignee: Mattson Technology, Inc.Inventor: Valery Godyak
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Patent number: 8918303Abstract: A method and system for calibrating temperature measurement devices, such as pyrometers, in thermal processing chambers are disclosed. According to the present invention, the system includes a calibrating light source that emits light energy onto a substrate contained in the thermal processing chamber. A light detector then detects the amount of light that is being transmitted through the substrate. The amount of detected light energy is then used to calibrate a temperature measurement device that is used in the system.Type: GrantFiled: September 24, 2012Date of Patent: December 23, 2014Assignee: Mattson Technology, Inc.Inventor: Paul Janis Timans
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Patent number: 8837923Abstract: Pulsed processing methods and systems for heating objects such as semiconductor substrates feature process control for multi-pulse processing of a single substrate, or single or multi-pulse processing of different substrates having different physical properties. Heat is applied a controllable way to the object during a background heating mode, thereby selectively heating the object to at least generally produce a temperature rise throughout the object during background heating. A first surface of the object is heated in a pulsed heating mode by subjecting it to at least a first pulse of energy. Background heating is controlled in timed relation to the first pulse. A first temperature response of the object to the first energy pulse may be sensed and used to establish at least a second set of pulse parameters for at least a second energy pulse to at least partially produce a target condition.Type: GrantFiled: June 13, 2011Date of Patent: September 16, 2014Assignee: Mattson Technology, Inc.Inventors: Paul J. Timans, Narasimha Acharya
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Publication number: 20140246422Abstract: An apparatus for heat treating semiconductor wafers is disclosed. The apparatus includes a heating device which contains an assembly linear lamps for emitting light energy onto a wafer. The linear lamps can be placed in various configurations. In accordance with the present invention, tuning devices which are used to adjust the overall irradiance distribution of the light energy sources are included in the heating device. The tuning devices can be, for instance, are lamps or lasers.Type: ApplicationFiled: March 5, 2014Publication date: September 4, 2014Applicant: MATTSON TECHNOLOGY, INC.Inventors: ZION KOREN, CONNOR PATRICK O'CARROLL, SHUEN CHUN CHOY, PAUL JANIS TIMANS, RUDY SANTO TOMAS CARDEMA, JAMES TSUNEO TAOKA, ARIETH A. STROD
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Patent number: 8801947Abstract: Methods for forming microlenses on a semiconductor substrate are provided. An inductively coupled plasma etch process using a process gas that includes a mixture of CF4 and CHF3 can be used to modify the lens shape of a plurality of microlens objects located on a semiconductor substrate to meet microlens specifications in terms of curvature, height, length, shape, and/or distance between adjacent microlens objects on the substrate. The inductively coupled plasma process can be performed in an inductively coupled plasma processing apparatus that includes a grounded Faraday shield to prevent any capacitive coupling during the plasma etching process to reduce sputtering of the microlens surface.Type: GrantFiled: May 28, 2013Date of Patent: August 12, 2014Assignee: Mattson Technology, Inc.Inventors: Tinghao Frank Wang, Rao V. Annapragada, Cecilia Laura Quinteros, Linda Nancy Marquez, Steven M. Kennedy
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Publication number: 20140151195Abstract: As part of a system for processing workpieces, a workpiece support arrangement, separate from a process chamber arrangement supports at least two workpieces at least generally in a stacked relationship to form a workpiece column. A transfer arrangement transports at least two of the workpieces between the workpiece column and the process chamber arrangement by simultaneously moving the two workpieces at least generally along first and second transfer paths, respectively, that are defined between the workpiece column and the first and second process stations. The transfer arrangement can simultaneously move untreated and treated workpieces. Vertical motion swing arms and coaxial swing arms are described. A pair of spaced apart swing arms, the workpiece column and the processing stations can cooperatively define a pentagonal shape. Timing belt backlash elimination, a dual degree of freedom slot valve and low point chamber pumping, for removing chamber contaminants, are also described.Type: ApplicationFiled: February 5, 2014Publication date: June 5, 2014Applicant: Mattson Technology, Inc.Inventor: Leszek Niewmierzycki
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Patent number: 8696197Abstract: A method and system are disclosed for determining at least one optical characteristic of a substrate, such as a semiconductor wafer. Once the optical characteristic is determined, at least one parameter in a processing chamber may be controlled for improving the process. For example, in one embodiment, the reflectivity of one surface of the substrate may first be determined at or near ambient temperature. From this information, the reflectance and/or emittance of the wafer during high temperature processing may be accurately estimated. The emittance can be used to correct temperature measurements using a pyrometer during wafer processing. In addition to making more accurate temperature measurements, the optical characteristics of the substrate can also be used to better optimize the heating cycle.Type: GrantFiled: March 9, 2012Date of Patent: April 15, 2014Assignee: Mattson Technology, Inc.Inventor: Paul Janis Timans
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Patent number: 8693857Abstract: A method of heat-treating a workpiece includes generating an initial heating portion and a subsequent sustaining portion of an irradiance pulse incident on a target surface area of the workpiece. A combined duration of the initial heating portion and the subsequent sustaining portion is less than a thermal conduction time of the workpiece. The initial heating portion heats the target surface area to a desired temperature and the subsequent sustaining portion maintains the target surface area within a desired range from the desired temperature. Another method includes generating such an initial heating portion and subsequent sustaining portion of an irradiance pulse, monitoring at least one parameter indicative of a presently completed amount of a desired thermal process during the irradiance pulse, and modifying the irradiance pulse in response to deviation of the at least one parameter from an expected value.Type: GrantFiled: July 13, 2011Date of Patent: April 8, 2014Assignee: Mattson Technology, Inc.Inventors: David Malcolm Camm, Steve McCoy, Greg Stuart
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Patent number: 8668422Abstract: As part of a system for processing workpieces, a workpiece support arrangement, separate from a process chamber arrangement supports at least two workpieces at least generally in a stacked relationship to form a workpiece column. A transfer arrangement transports at least two of the workpieces between the workpiece column and the process chamber arrangement by simultaneously moving the two workpieces at least generally along first and second transfer paths, respectively, that are defined between the workpiece column and the first and second process stations. The transfer arrangement can simultaneously move untreated and treated workpieces. Vertical motion swing arms and coaxial swing arms are described. A pair of spaced apart swing arms, the workpiece column and the processing stations can cooperatively define a pentagonal shape. Timing belt backlash elimination, a dual degree of freedom slot valve and low point chamber pumping, for removing chamber contaminants, are also described.Type: GrantFiled: August 17, 2004Date of Patent: March 11, 2014Assignee: Mattson Technology, Inc.Inventors: Leszek Niewmierzycki, David Barker, Daniel J. Devine, Michael Kuhlman, Ryan Pakulski, Hongqing Shan, Martin Zucker
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Patent number: 8669496Abstract: An apparatus for heat treating semiconductor wafers is disclosed. The apparatus includes a heating device which contains an assembly linear lamps for emitting light energy onto a wafer. The linear lamps can be placed in various configurations. In accordance with the present invention, tuning devices which are used to adjust the overall irradiance distribution of the light energy sources are included in the heating device. The tuning devices can be, for instance, are lamps or lasers.Type: GrantFiled: June 15, 2012Date of Patent: March 11, 2014Assignee: Mattson Technology, Inc.Inventor: Paul Janis Timans
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Patent number: 8668383Abstract: Methods and apparatus for wafer temperature measurement and calibration of temperature measurement devices may be based on determining the absorption of a layer in a semiconductor wafer. The absorption may be determined by directing light towards the wafer and measuring light reflected from the wafer from below the surface upon which the incident light impinges. Calibration wafers and measurement systems may be arranged and configured so that light reflected at predetermined angles to the wafer surface is measured and other light is not. Measurements may also be based on evaluating the degree of contrast in an image of a pattern in or on the wafer. Other measurements may utilize a determination of an optical path length within the wafer alongside a temperature determination based on reflected or transmitted light.Type: GrantFiled: April 16, 2012Date of Patent: March 11, 2014Assignee: Mattson Technology, Inc.Inventor: Paul Janis Timans
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Patent number: 8622451Abstract: An endeffector for handling wafers at a relatively low temperature is disclosed along with an endeffector for handling wafers at a relatively high temperature. Both endeffectors include a base member and uniquely designed support members that are configured to only contact a wafer at the wafer's edge. Further, the support members have an arcuate shape that generally matches a radius of a semiconductor wafer. More specifically, each support member has a curved wafer contact surface that tapers from a maximum radius at a top surface to a minimum radius at a bottom surface. The endeffectors may also include a wafer detection system. The endeffector for handling wafers at relatively low temperatures may also include a pushing device that is used not only to position a wafer but to hold a wafer on the endeffector during acceleration or deceleration of the endeffector caused by a robot arm attached to the endeffector.Type: GrantFiled: January 24, 2012Date of Patent: January 7, 2014Assignee: Mattson Technology, Inc.Inventor: Paul Mantz
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Publication number: 20130306871Abstract: A method and system for determining a shape of an irradiance pulse to which a semiconductor wafer is to be exposed during a thermal cycle are disclosed. The method includes receiving, with a processor circuit, thermal cycle parameters specifying requirements of the thermal cycle, and determining, with the processor circuit, a shape of a heating portion of the irradiance pulse. Determining includes optimizing at least one parameter of a flux profile model of the heating portion of the irradiance pulse to satisfy the requirements while minimizing frequency-domain energy spectral densities of the flux profile model at resonant frequencies of the wafer, to minimize vibration of the wafer at the resonant frequencies when the wafer is exposed to the irradiance pulse.Type: ApplicationFiled: October 14, 2011Publication date: November 21, 2013Applicant: Mattson Technology, Inc.Inventors: Joseph Cibere, David Malcolm Camm
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Patent number: 8575521Abstract: Temperature control in an RTP system can be improved by consideration of one or more witness structures different from the wafer (or other semiconductor object) being processed. For example, power coupling between the RTP heating system and witness structure can be used to adjust one or more control parameters, such as model definitions, that are used by the RTP system to control wafer heating. As another example, a stored trajectory of a desired witness structure temperature or other property can be used as a basis for control during a processing cycle. Thus, the witness structure may be controlled “closed-loop” while the wafer is heated “open-loop.” As a further example, a heat flux between the RTP heating system and witness structure can be used to determine radiant energy from the heating system that is incident on the witness structure. One or more control actions can be taken based on this incident energy.Type: GrantFiled: April 1, 2008Date of Patent: November 5, 2013Assignee: Mattson Technology, Inc.Inventors: Zsolt Nenyei, Paul Janis Timans