Patents by Inventor Carol I. H. Ashby
Carol I. H. Ashby 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: 6765242Abstract: An NPN double heterostructure bipolar transistor (DHBT) is disclosed with a base region comprising a layer of p-type-doped indium gallium arsenide nitride (InGaAsN) sandwiched between n-type-doped collector and emitter regions. The use of InGaAsN for the base region lowers the transistor turn-on voltage, Von, thereby reducing power dissipation within the device. The NPN transistor, which has applications for forming low-power electronic circuitry, is formed on a gallium arsenide (GaAs) substrate and can be fabricated at commercial GaAs foundries. Methods for fabricating the NPN transistor are also disclosed.Type: GrantFiled: April 11, 2000Date of Patent: July 20, 2004Assignees: Sandia Corporation, Emcore CorporationInventors: Ping-Chih Chang, Albert G. Baca, Nein-Yi Li, Hong Q. Hou, Carol I. H. Ashby
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Patent number: 6599436Abstract: A method is disclosed to form external interconnections to a microfluidic device for coupling of a fluid or light or both into a microchannel of the device. This method can be used to form optical or fluidic interconnections to microchannels previously formed on a substrate, or to form both the interconnections and microchannels during the same process steps. The optical and fluidic interconnections are formed parallel to the plane of the substrate, and are fluid tight.Type: GrantFiled: December 6, 2001Date of Patent: July 29, 2003Assignee: Sandia CorporationInventors: Carolyn M. Matzke, Carol I. H. Ashby, Leonardo Griego
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Patent number: 6228672Abstract: A passivation process for a previously sulfided, selenided or tellurated III-V compound semiconductor surface. The concentration of undesired mid-gap surface states on a compound semiconductor surface is reduced by the formation of a near-monolayer of metal-(sulfur and/or selenium and/or tellurium)-semiconductor that is effective for long term passivation of the underlying semiconductor surface. Starting with the III-V compound semiconductor surface, any oxidation present thereon is substantially removed and the surface is then treated with sulfur, selenium or tellurium to form a near-monolayer of chalcogen-semiconductor of the surface in an oxygen-free atmosphere. This chalcogenated surface is then contacted with a solution of a metal that will form a low solubility chalcogenide to form a near-monolayer of metal-chalcogen-semiconductor.Type: GrantFiled: October 29, 1998Date of Patent: May 8, 2001Assignee: Sandia CorporationInventor: Carol I. H. Ashby
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Patent number: 6096656Abstract: A process for forming one or more fluid microchannels on a substrate is disclosed that is compatible with the formation of integrated circuitry on the substrate. The microchannels can be formed below an upper surface of the substrate, above the upper surface, or both. The microchannels are formed by depositing a covering layer of silicon oxynitride over a mold formed of a sacrificial material such as photoresist which can later be removed. The silicon oxynitride is deposited at a low temperature (.ltoreq.100.degree. C.) and preferably near room temperature using a high-density plasma (e.g. an electron-cyclotron resonance plasma or an inductively-coupled plasma). In some embodiments of the present invention, the microchannels can be completely lined with silicon oxynitride to present a uniform material composition to a fluid therein. The present invention has applications for forming microchannels for use in chromatography and electrophoresis.Type: GrantFiled: June 24, 1999Date of Patent: August 1, 2000Assignee: Sandia CorporationInventors: Carolyn M. Matzke, Carol I. H. Ashby, Monica M. Bridges, Ronald P. Manginell
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Patent number: 5814238Abstract: A method for dry etching of transition metals. The method for dry etching of a transition metal (or a transition metal alloy such as a silicide) on a substrate comprises providing at least one nitrogen- or phosphorous-containing .pi.-acceptor ligand in proximity to the transition metal, and etching the transition metal to form a volatile transition metal/.pi.-acceptor ligand complex. The dry etching may be performed in a plasma etching system such as a reactive ion etching (RIE) system, a downstream plasma etching system (i.e. a plasma afterglow), a chemically-assisted ion beam etching (CAIBE) system or the like. The dry etching may also be performed by generating the .pi.-acceptor ligands directly from a ligand source gas (e.g. nitrosyl ligands generated from nitric oxide), or from contact with energized particles such as photons, electrons, ions, atoms, or molecules.Type: GrantFiled: October 12, 1995Date of Patent: September 29, 1998Assignee: Sandia CorporationInventors: Carol I. H. Ashby, Albert G. Baca, Peter Esherick, John E. Parmeter, Dennis J. Rieger, Randy J. Shul
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Patent number: 5463649Abstract: A monolithically integrated photonic circuit combining a semiconductor source of excitation light with an optically active waveguide formed on the substrate. The optically active waveguide is preferably formed of a spin-on glass to which are added optically active materials which can enable lasing action, optical amplification, optical loss, or frequency conversion in the waveguide, depending upon the added material.Type: GrantFiled: August 6, 1993Date of Patent: October 31, 1995Assignee: Sandia CorporationInventors: Carol I. H. Ashby, John P. Hohimer, Daniel R. Neal, G. Allen Vawter
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Patent number: 5451542Abstract: A method for passivating compound semiconductor surfaces by photolytically disrupting molecular sulfur vapor with ultraviolet radiation to form reactive sulfur which then reacts with and passivates the surface of compound semiconductors.Type: GrantFiled: June 21, 1994Date of Patent: September 19, 1995Assignee: Sandia CorporationInventor: Carol I. H. Ashby
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Patent number: 5356516Abstract: An etching process using dicarboxylic and tricarboxylic acids as chelating etchants for mixed metal oxide films such as high temperature superconductors and ferroelectric materials. Undesirable differential etching rates between different metal oxides are avoided by selection of the proper acid or combination of acids. Feature sizes below one micron, excellent quality vertical edges, and film thicknesses in the 100 Angstom range may be achieved by this method.Type: GrantFiled: February 26, 1993Date of Patent: October 18, 1994Assignee: Sandia CorporationInventors: Carol I. H. Ashby, David S. Ginley
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Carrier-lifetime-controlled selective etching process for semiconductors using photochemical etching
Patent number: 5092957Abstract: The minority carrier lifetime is significantly much shorter in semiconductor materials with very high impurity concentrations than it is in semiconductor materials with lower impurity concentration levels. This phenomenon of reduced minority carrier lifetime in semiconductor materials having high impurity concentration is utilized to advantage for permitting highly selective semiconductor material etching to be achieved using a carrier-driven photochemical etching reaction. Various means may be employed for increasing the local impurity concentration level in specific near-surface regions of a semiconductor prior to subjecting the semiconductor material to a carrier-driven photochemical etching reaction. The regions having the localized increased impurity concentration form a self-aligned mask inhibiting photochemical etching at such localized regions while the adjacent regions not having increased impurity concentrations are selectively photochemically etched. Liquid- or gas-phase etching may be performed.Type: GrantFiled: November 24, 1989Date of Patent: March 3, 1992Assignee: The United States of America as represented by the United States Department of EnergyInventors: Carol I. H. Ashby, David R. Myers -
Patent number: 4978418Abstract: A process for etching a material such as LiNbO.sub.3 by implanting ions having a plurality of different kinetic energies in an area to be etched, and then contacting the ion implanted area with an etchant. The various energies of the ions are selected to produce implant damage substantially uniformly throughout the entire depth of the zone to be etched, thus tailoring the vertical profile of the damaged zone.Type: GrantFiled: August 18, 1988Date of Patent: December 18, 1990Assignee: The United States of America as represented by the United States Department of EnergyInventors: George W. Arnold, Jr., Carol I. H. Ashby, Paul J. Brannon
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Patent number: 4965806Abstract: A broad-area semiconductor laser diode includes an active lasing region interposed between an upper and a lower cladding layer, the laser diode further comprising structure for controllably varying a lateral refractive index profile of the diode to substantially compensate for an effect of junction heating during operation. In embodiments disclosed the controlling structure comprises resistive heating strips or non-radiative linear junctions disposed parallel to the active region. Another embodiment discloses a multi-layered upper cladding region selectively disordered by implanted or diffused dopant impurities. Still another embodiment discloses an upper cladding layer of variable thickness that is convex in shape and symmetrically disposed about a central axis of the active region. The teaching of the invention is also shown to be applicable to arrays of semiconductor laser diodes.Type: GrantFiled: June 15, 1989Date of Patent: October 23, 1990Assignee: The United States of America as represented by the United States Department of EnergyInventors: Carol I. H. Ashby, G. Ronald Hadley, John P. Hohimer, Adelbert Owyoung
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Patent number: 4880493Abstract: An electronic-carrier-controlled photochemical etching process for carrying out patterning and selective removing of material in semiconductor device fabrication includes the steps of selective ion implanting, photochemical dry etching, and thermal annealing, in that order. In the selective ion implanting step, regions of the semiconductor material in a desired pattern are damaged and the remainder of the regions of the material not implanted are left undamaged. The rate of recombination of electrons and holes is increased in the damaged regions of the pattern compared to undamaged regions. In the photochemical dry etching step which follows ion implanting step, the material in the undamaged regions of the semiconductor are removed substantially faster than in the damaged regions representing the pattern, leaving the ion-implanted, damaged regions as raised surface structures on the semiconductor material.Type: GrantFiled: June 16, 1988Date of Patent: November 14, 1989Assignee: The United States of America as represented by the United States Department of EnergyInventors: Carol I. H. Ashby, David R. Myers, Frederick L. Vook
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Patent number: 4838989Abstract: The surfaces of solid ionic substrates are etched by a radiation-driven chemical reaction. The process involves exposing an ionic substrate coated with a layer of a reactant material on its surface to radiation, e.g. a laser, to induce localized melting of the substrate which results in the occurrance of a fusion reaction between the substrate and coating material. The resultant reaction product and excess reactant salt are then removed from the surface of the substrate with a solvent which is relatively inert towards the substrate. The laser-driven chemical etching process is especially suitable for etching ionic salt substrates, e.g., a solid inorganic salt such as LiNbO.sub.3, such as used in electro-optical/acousto-optic devices. It is also suitable for applications wherein the etching process is required to produce an etched ionic substrate having a smooth surface morphology or when a very rapid etching rate is desired.Type: GrantFiled: August 25, 1987Date of Patent: June 13, 1989Assignee: The United States of America as represented by the United States Department of EnergyInventors: Carol I. H. Ashby, Paul J. Brannon, James B. Gerardo
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Patent number: 4648936Abstract: A method of selectively photochemically dry etching a first semiconductor material of a given composition in the presence of a second semiconductor material which is of a composition different from said first material, said second material substantially not being etched during said method, comprises subjecting both materials to the same photon flux of an energy greater than their respective direct bandgaps and to the same gaseous chemical etchant under conditions where said etchant would be ineffective for chemical etching of either material were the photons not present, said conditions also being such that the resultant electronic structure of the first semiconductor material under said photon flux is sufficient for the first material to undergo substantial photochemical etching under said conditions and being such that the resultant electronic structure of the second semiconductor material under said photon flux is not sufficient for the second material to undergo substantial photochemical etching under saiType: GrantFiled: October 11, 1985Date of Patent: March 10, 1987Assignee: The United States of America as represented by the United States Department of EnergyInventors: Carol I. H. Ashby, James L. Dishman
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Patent number: 4648938Abstract: A method of selectively photochemically dry etching a first semiconductor material of a given composition and direct bandgap Eg.sub.1 in the presence of a second semiconductor material of a different composition and direct bandgap Eg.sub.2, wherein Eg.sub.2 >Eg.sub.1, said second semiconductor material substantially not being etched during said method, comprises subjecting both materials to the same photon flux and to the same gaseous etchant under conditions where said etchant would be ineffective for chemical etching of either material were the photons not present, said photons being of an energy greater than Eg.sub.1 but less than Eg.sub.2, whereby said first semiconductor material is photochemically etched and said second material is substantially not etched.Type: GrantFiled: October 11, 1985Date of Patent: March 10, 1987Assignee: The United States of America as represented by the United States Department of EnergyInventors: Carol I. H. Ashby, James L. Dishman