Patents Assigned to Ultratech
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Patent number: 9613815Abstract: High-efficiency line-forming optical systems and methods for defect annealing and dopant activation are disclosed. The system includes a CO2-based line-forming system configured to form at a wafer surface a first line image having between 2000 W and 3000 W of optical power. The line image is scanned over the wafer surface to locally raise the temperature up to a defect anneal temperature. The system can include a visible-wavelength diode-based line-forming system that forms a second line image that can scan with the first line image to locally raise the wafer surface temperature from the defect anneal temperature to a spike anneal temperature. Use of the visible wavelength for the spike annealing reduces adverse pattern effects and improves temperature uniformity and thus annealing uniformity.Type: GrantFiled: October 30, 2015Date of Patent: April 4, 2017Assignee: Ultratech, Inc.Inventors: Andrew M. Hawryluk, Serguei Anikitchev
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Publication number: 20170088952Abstract: ALD systems and methods having high throughput are disclosed. The ALD systems and methods employ a process chamber that has multiple chamber sections defined by interior chamber dividers. The wafers to be processed are supported on a platen that rotates beneath a process chamber housing with a small gap therebetween so that the wafers are moved between the chamber sections. The multiple chamber sections are pneumatically partitioned by the dividers and by pneumatic valves operably disposed therein and in pneumatic communication with the platen surface through the gap. Some chamber sections are used to perform an ALD process using process gasses, while other chamber sections are transition sections that include a purge gas. Some chamber sections can be employed to perform a laser process or a plasma process on the wafers passing therethrough.Type: ApplicationFiled: September 20, 2016Publication date: March 30, 2017Applicant: Ultratech, Inc.Inventor: Andrew M. Hawryluk
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Patent number: 9605422Abstract: A storm water catch basin hazardous liquid valve that is automatically responsive to the presence of hazardous liquids in storm water run-off, the valve utilizing a hydrophobic barrier member to separate hazardous liquids from water. Collection of a sufficient amount of hazardous liquids across the hydrophobic barrier member initiates a float release member to seal off the catch basin. In the neutral or non-activated status, the storm water run-off enters the catch basin, passes through the valve assembly and out through the storm water conduit system in normal manner. When a hazardous liquid, such as oil, gasoline, chemicals, etc., is present in the storm water run-off above a threshold amount, the valve activates to close off the catch basin such that the storm water run-off is precluded from entering the storm water conduit system.Type: GrantFiled: November 6, 2013Date of Patent: March 28, 2017Assignee: ULTRATECH INTERNATIONAL, INC.Inventor: Mark D. Shaw
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Publication number: 20170073812Abstract: Methods of forming 2D metal chalcogenide films using laser-assisted atomic layer deposition are disclosed. A direct-growth method includes: adhering a layer of metal-bearing molecules to the surface of a heated substrate; then reacting the layer of metal-bearing molecules with a chalcogenide-bearing radicalized precursor gas delivered using a plasma to form an amorphous 2D film of the metal chalcogenide; then laser annealing the amorphous 2D film to form a crystalline 2D film of the metal chalcogenide, which can have the form MX or MX2, where M is a metal and X is the chalcogenide. An indirect growth method that includes forming an MO3 film is also disclosed.Type: ApplicationFiled: September 6, 2016Publication date: March 16, 2017Applicant: Ultratech, Inc.Inventor: Ganesh Sundaram
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Publication number: 20170062191Abstract: Systems and methods for coating particles using PE-ALD and a rotary reactor tube are disclosed. The reactor tube is part of a reactor tube assembly that can rotate and move axially so that it is operably disposed relative to a plasma-generating device. The plasma-generating device has an active state that generates a plasma from a precursor gas and an inactive state that passes the precursor gas without forming a plasma. The reactor tube resides in a chamber that has an open position for accessing the reactor tube and a closed position that supports a vacuum. An output end of the plasma-generating device resides immediately adjacent or within an input section of the reactor tube. This configuration avoids the need for an active portion of the plasma-generating device residing adjacent an outer surface of the reactor tube.Type: ApplicationFiled: August 23, 2016Publication date: March 2, 2017Applicant: Ultratech, Inc.Inventors: Arthur W. Zafiropoulo, Andrew M. Hawryluk
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Patent number: 9583337Abstract: A method of performing an oxygen radical enhanced atomic-layer deposition process on a surface of a substrate that resides within an interior of a reactor chamber is disclosed. The method includes forming an ozone plasma to generate oxygen radicals O*. The method also includes feeding the oxygen radicals and a precursor gas sequentially into the interior of the reactor chamber to form an oxide film on the substrate surface. A system for performing the oxygen radical enhanced atomic-layer deposition process is also disclosed.Type: GrantFiled: January 21, 2015Date of Patent: February 28, 2017Assignee: Ultratech, Inc.Inventor: Arthur W. Zafiropoulo
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Patent number: 9567670Abstract: An ALD coating method to provide a coating surface on a substrate is provided. The ALD coating method comprises: providing a deposition heading including a unit cell having a first precursor nozzle assembly and a second precursor nozzle assembly; emitting a first precursor from the first precursor nozzle assembly into chamber under atmospheric conditions in a direction substantially normal to the coating surface; emitting a second precursor from the first precursor nozzle assembly into chamber under atmospheric conditions in a direction substantially normal to the coating surface; removing moving the substrate under the deposition head such that the first precursor is directed onto a first area of the coating surface prior to the second precursor being directed onto the first area of the coating surface.Type: GrantFiled: December 29, 2014Date of Patent: February 14, 2017Assignee: Ultratech, Inc.Inventors: Michael J. Sershen, Ganesh M. Sundaram, Roger R. Coutu, Jill Svenja Becker, Mark J. Dalberth
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Patent number: 9559023Abstract: Systems and methods for reducing beam instability in laser annealing are disclosed. The method includes: directing a conditioned laser beam through an opening in an aperture using a beam-redirecting element; forming a line image on the surface of the semiconductor wafer by imaging the aperture onto the surface, thereby locally heating the surface to form an annealing temperature distribution; detecting a thermal emission from the locally heated wafer surface; determining the annealing temperature distribution from the detected thermal emission; determining from the annealing temperature distribution a line-image intensity profile that includes a time-varying amount of slope; and adjusting the beam-redirecting element to redirect the laser beam to reduce or eliminate the time-varying amount of slope in the line-image intensity profile.Type: GrantFiled: June 23, 2014Date of Patent: January 31, 2017Assignee: Ultratech, Inc.Inventors: James T. McWhirter, Andrew Hawryluk, Serguei Anikitichev, Masoud Safa
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Patent number: 9556519Abstract: Vapor deposition systems and methods associated with the same are provided. The systems may be designed to include features that can promote high quality deposition; simplify manufacture, modification and use; as well as, reduce the footprint of the system, amongst other advantages.Type: GrantFiled: November 27, 2011Date of Patent: January 31, 2017Assignee: ULTRATECH INC.Inventors: Douwe Johannes Monsma, Jill Svenja Becker
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Patent number: 9558973Abstract: Laser annealing systems and methods for annealing a semiconductor wafer with ultra-short dwell times are disclosed. The laser annealing systems can include one or two laser beams that at least partially overlap. One of the laser beams is a pre-heat laser beam and the other laser beam is the annealing laser beam. The annealing laser beam scans sufficiently fast so that the dwell time is in the range from about 1 ?s to about 100 ?s. These ultra-short dwell times are useful for annealing product wafers formed from thin device wafers because they prevent the device side of the device wafer from being damaged by heating during the annealing process. Embodiments of single-laser-beam annealing systems and methods are also disclosed.Type: GrantFiled: September 18, 2014Date of Patent: January 31, 2017Assignee: Ultratech, Inc.Inventors: Andrew M. Hawryluk, Serguel Anikitchev
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Publication number: 20170025272Abstract: Masking methods for atomic-layer-deposition processes for electrode-based devices are disclosed, wherein solder is used as a masking material. The methods include exposing electrical contact members of an electrical device having an active device region and a barrier layer formed by atomic layer deposition. This includes depositing solder elements on the electrical contact members, then forming the barrier layer using atomic layer deposition, wherein the barrier layer covers the active device region and also covers the solder elements that respectively cover the electrical contact members. The solder elements are then melted, which removes respective portions of the barrier layer covering the solder elements. Similar methods are employed for exposing contacts when forming layered capacitors.Type: ApplicationFiled: July 14, 2016Publication date: January 26, 2017Applicant: Ultratech, Inc.Inventor: Ritwik Bhatia
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Publication number: 20170025287Abstract: High-efficiency line-forming optical systems and methods that employ a serrated aperture are disclosed. The line-forming optical system includes a laser source, a beam conditioning optical system, a first aperture device, and a relay optical system that includes a second aperture device having the serrated aperture. The serrated aperture is defined by opposing serrated blades configured to reduce intensity variations in a line image formed at an image plane as compared to using an aperture having straight-edged blades.Type: ApplicationFiled: July 14, 2016Publication date: January 26, 2017Applicant: Ultratech, Inc.Inventor: Serguei Anikitchev
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Publication number: 20160363440Abstract: Polarization-based coherent gradient-sensing systems and methods for measuring at least one surface-shape property of a specularly reflective surface are disclosed. The method includes: reflecting a first circularly polarized laser beam from a sample surface to form a second circularly polarized laser beam that contains surface-shape information; converting the second circularly polarized laser beam to a linearly polarized reflected laser beam; directing respective first and second portions of the linearly polarized reflected laser beam to first and second relay assemblies that constitute first and second interferometer arms. The first and second relay assemblies each use a pair of axially spaced-apart gratings to generate respective first and second interference patterns at respective first and second image sensors. Respective first and second signals from the first and second image sensors are processed to determine the at least one surface-shape property.Type: ApplicationFiled: May 12, 2016Publication date: December 15, 2016Applicant: Ultratech, Inc.Inventor: David G. Stites
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Publication number: 20160354865Abstract: Microchamber laser processing systems and methods that use a localized process-gas atmosphere are disclosed. The method includes processing a substrate with a surface by providing a process gas to a central region of the microchamber that includes the surface of the substrate and providing a curtain gas to a peripheral region of the chamber that includes the surface of the substrate. The method also includes providing a vacuum to a region of the chamber between its central and peripheral regions of the chamber, wherein the vacuum removes the process gas and curtain gas, thereby forming a localized process-gas atmosphere at the surface of the substrate in the central region of the chamber and a gas curtain of the curtain gas in the peripheral region of the chamber. The method also includes irradiating the surface of the substrate through the localized process-gas atmosphere with a laser beam that forms a laser line to perform a laser process on the surface of the substrate.Type: ApplicationFiled: May 4, 2016Publication date: December 8, 2016Applicant: Ultratech, Inc.Inventor: James T. McWhirter
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Publication number: 20160351682Abstract: Disclosed is an improved semiconductor structure (e.g., a silicon germanium (SiGe) hetero-junction bipolar transistor) having a narrow essentially interstitial-free SIC pedestal with minimal overlap of the extrinsic base. Also, disclosed is a method of forming the transistor which uses laser annealing, as opposed to rapid thermal annealing, of the SIC pedestal to produce both a narrow SIC pedestal and an essentially interstitial-free collector. Thus, the resulting SiGe HBT transistor can be produced with narrower base and collector space-charge regions than can be achieved with conventional technology.Type: ApplicationFiled: August 13, 2016Publication date: December 1, 2016Applicant: Ultratech, Inc.Inventors: Oleg Gluschenkov, Rajendran Krishnasamy, Kathryn T. Schonenberg
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Publication number: 20160343583Abstract: Laser annealing of a semiconductor wafers using a forming gas for localized control of ambient oxygen gas to reduce the amount of oxidization during laser annealing is disclosed. The forming gas includes hydrogen gas and an inert buffer gas such as nitrogen gas. The localized heating of the oxygen gas and the forming gas in the vicinity of the annealing location on the surface of the semiconductor wafer creates a localized region within which combustion of oxygen gas and hydrogen gas occurs to generate water vapor. This combustion reaction reduces the oxygen gas concentration within the localized region, thereby locally reducing the amount of ambient oxygen gas, which in turn reduces oxidation rate at the surface of the semiconductor wafer during the annealing process.Type: ApplicationFiled: May 18, 2015Publication date: November 24, 2016Applicant: ULTRATECH, INC.Inventors: James McWhirter, Arthur W. Zafiropoulo
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Patent number: 9488811Abstract: A 1× Wynne-Dyson optical system for microlithography having a variable magnification is disclosed. The 1× Wynne-Dyson optical system has first and second prisms, and a positive lens group that includes a split lens having first and second split lens elements that reside adjacent the first and second prisms, respectively. The first and second split lens elements are axially movable to change the magnification by up to about 500 parts per million. An adjustable positive lens group for a 1× Wynne-Dyson optical system is also disclosed, wherein the positive lens group allows for small changes in the optical system magnification.Type: GrantFiled: July 26, 2014Date of Patent: November 8, 2016Assignee: Ultratech, Inc.Inventor: David G. Stites
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Patent number: 9490128Abstract: Methods of annealing a thin semiconductor wafer are disclosed. The methods allow for high-temperature annealing of one side of a thin semiconductor wafer without damaging or overheating heat-sensitive electronic device features that are either on the other side of the wafer or embedded within the wafer. The annealing is performed at a temperature below the melting point of the wafer so that no significant dopant redistribution occurs during the annealing process. The methods can be applied to activating dopants or to forming ohmic contacts.Type: GrantFiled: August 27, 2012Date of Patent: November 8, 2016Assignee: Ultratech, Inc.Inventors: Yun Wang, Andrew M. Hawryluk, Xiaoru Wang, Xiaohua Shen
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Patent number: 9475150Abstract: Systems and methods for performing semiconductor laser annealing using dual loop control are disclosed. The first control loop operates at a first frequency and controls the output of the laser and controls the 1/f laser noise. The second control loop also controls the amount of output power in the laser and operates at second frequency lower than the first frequency. The second control loop measures the thermal emission of the wafer over an area the size of one or more die so that within-die emissivity variations are average out when determining the measured annealing temperature. The measured annealing temperature and an annealing temperature set point are used to generate the control signal for the second control loop.Type: GrantFiled: February 20, 2014Date of Patent: October 25, 2016Assignee: Ultratech, Inc.Inventors: James T. McWhirter, David Gaines, Joseph Lee, Paulo Zambon
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Publication number: 20160306177Abstract: A line-forming optical system and method are disclosed that form a line image with high-efficiency. A method includes forming a laser beam having a first intensity profile with a Gaussian distribution in at least a first direction and passing at least 50% of the laser beam in the first direction to form a first transmitted light. The method also includes: focusing the first transmitted light at an intermediate image plane to define a second intensity profile having a central peak and first side peaks immediately adjacent the central peak; then truncating the second intensity profile within each of first side peaks to define a second transmitted light; and then forming the line image at an image plane from the second transmitted light.Type: ApplicationFiled: June 24, 2016Publication date: October 20, 2016Applicant: Ultratech, Inc.Inventor: Serguei Anikitchev