Patents by Inventor Robert L. Thornton
Robert L. Thornton 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: 7633621Abstract: A hybrid laser comprising a semiconductor pump laser and small-cavity rare earth fiber laser where laser cavities of both lasers are butt coupled or otherwise optically coupled to form a plurality of laser cavities that produce a plurality of emission wavelengths, one which may be the pump laser emission wavelength at the output of the fiber laser thereby forming a multi-wavelength combined output. The wavelengths in such an output may substantially match distinguishing spectral characteristic features along at least a portion of a characteristic optical spectrum of the analyte under examination providing a method of determining the concentration of an analyte in a specimen undergoing examination.Type: GrantFiled: September 18, 2007Date of Patent: December 15, 2009Inventor: Robert L. Thornton
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Patent number: 7596161Abstract: Highly compact vertical cavity surface emitting laser structures formed by a lateral oxidation process are provided. Specifically, well-controlled oxidized regions bound and define the aperture of a laser structure in a current controlling oxidation layer, wherein the aperture comprises a conductive region in the oxidation layer. These oxidized regions are formed by the use of a pre-defined bounding pattern of cavities etched in the laser structure, which allow the embedded oxidation layer to be oxidized, and which results in a highly reproducible and manufacturable process.Type: GrantFiled: April 17, 2006Date of Patent: September 29, 2009Assignee: Xerox CorporationInventors: Christopher L. Chua, Robert L. Thornton, David W. Treat
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Patent number: 7483465Abstract: A near field optical apparatus comprising a conductive sheet or plane having an aperture therein with the conductive plane including at least one protrusion which extends into the aperture. The location, structure and configuration of the protrusion or protrusions can be controlled to provide desired near field localization of optical power output associated with the aperture. Preferably, the location, structure and configuration of the protrusion are tailored to maximize near field localization at generally the center of the aperture. The aperture preferably has a perimeter dimension which is substantially resonant with the output wavelength of the light source, or is otherwise able to support a standing wave of significant amplitude. The apparatus may be embodied in a vertical cavity surface emitting layer or VCSEL having enhanced nearfield brightness by providing a conductive layer on the laser emission facet, with, a protrusion of the conductive layer extending into an aperture in the emission facet.Type: GrantFiled: June 25, 2004Date of Patent: January 27, 2009Assignee: Research Investment Network, Inc.Inventors: Robert L. Thornton, Xiaolei Shi
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Patent number: 7327667Abstract: A single monolithic semiconductor substrate comprises a first side and a second side. The first side includes an air bearing surface. A laser integrates with the first side. The laser has an emission facet substantially co-planer with the air bearing surface. A contact pad on the second side electronically bridges to the laser.Type: GrantFiled: September 23, 2004Date of Patent: February 5, 2008Assignee: Research Investment Network, Inc.Inventors: Robert L. Thornton, Douglas G. Stinson, Roger K. Malmhall, Matthew C. Bashaw
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Patent number: 7283242Abstract: An optical spectroscopy apparatus determines the concentration of analyte in a specimen that utilizes a single radiation source which is hybrid laser comprising a semiconductor pump laser and small-cavity rare earth fiber laser where laser cavities of both lasers are butt coupled or otherwise optically coupled to form a plurality of laser cavities that produce a plurality of emission wavelengths, one which may be the pump laser emission wavelength at the output of the fiber laser thereby forming a multi-wavelength combined output where the wavelengths substantially match distinguishing spectral characteristic features along at least a portion of a characteristic optical spectrum of the analyte under examination.Type: GrantFiled: September 1, 2004Date of Patent: October 16, 2007Inventor: Robert L. Thornton
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Patent number: 7187704Abstract: A method of establishing the properties of a three-mirror laser, where the properties are the three mirror reflectivities and the two cavity lengths (i.e., the separations between the mirrors). Initially, a conventional two-mirror laser is designed, providing values for a laser cavity length and for power reflectivities of a high reflectance mirror and an effective mirror. Then, the effective mirror is replaced by a pair of mirrors with a separation equal to an external cavity length, and reflectivities that may be varied in tandem so that when the reflections from the pair of mirrors are in phase, the combined power reflectivity of the pair of mirrors is equal to that of the effective mirror. A quantity ? is defined to measure the relative shift in power reflectivity between the pair of mirrors. ? is varied over all its possible values, and various criteria are evaluated with respect to ?.Type: GrantFiled: June 17, 2004Date of Patent: March 6, 2007Inventor: Robert L. Thornton
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Patent number: 7160749Abstract: The polarization instability inherent in laterally-oxidized VCSELs may be mitigated by employing an appropriately-shaped device aperture, a misoriented substrate, one or more cavities or employing the shaped device aperture together with a misoriented substrate and/or cavities. The laterally-oxidized VCSELs are able to operate in a single polarization mode throughout the entire light output power versus intensity curve. Combining the use of misoriented substrates with a device design that has an asymmetric aperture that reinforces the polarization mode favored by the substrate further improves polarization selectivity. Other device designs, however, can also be combined with substrate misorientation to strengthen polarization selectivity.Type: GrantFiled: August 20, 2001Date of Patent: January 9, 2007Assignee: Xerox CorporationInventors: Christopher L. Chua, Robert L. Thornton, David W. Treat
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Patent number: 7158470Abstract: A near-field optical apparatus having one or more solid state lasers and an aerodynamically shaped slider which comprise a single integrated, monolithic device fabricated from the same base semiconductor material. The monolithic optical head can be quickly and easily attached to the read arm of an optical read/write device without requiring attachment of separate laser elements, and without micropositioning or use of optical microscopy for positioning the lasers. The optical head comprising a single semiconductor substrate including a first region which defines a slider having an air bearing surface, and at least one second, laser region which defines a diode laser, with the diode laser having an emission face which is substantially co-planar with the air bearing surface.Type: GrantFiled: August 23, 2005Date of Patent: January 2, 2007Assignee: Research Investment Network, Inc.Inventors: Robert L. Thornton, Douglas G. Stinson, Roger K. Malmhall, Mathew C. Bashaw
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Patent number: 7095767Abstract: A near field optical apparatus comprising a conductive sheet or plane having an aperture therein, with the conductive plane including at least one protrusion which extends into the aperture. The location, structure and configuration of the protrusion or protrusions can be controlled to provide desired near field localization of optical power output associated with the aperture. Preferably, the location, structure and configuration of the protrusion are tailored to maximize near field localization at generally the center of the aperture. The aperture preferably has a perimeter dimension which is substantially resonant with the output wavelength of the light source, or is otherwise able to support a standing wave of significant amplitude. The apparatus may be embodied in a vertical cavity surface emitting layer or VCSEL having enhanced nearfield brightness by providing a conductive layer on the laser emission facet, with a protrusion of the conductive layer extending into an aperture in the emission facet.Type: GrantFiled: August 29, 2000Date of Patent: August 22, 2006Assignee: Research Investment Network, Inc.Inventors: Robert L. Thornton, Xiaolei Shi
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Patent number: 7069569Abstract: A near-field optical system having one or more solid state lasers and an aerodynamically shaped slider which comprise a single integrated, monolithic device fabricated from the same base semiconductor material. The monolithic optical head can be quickly and easily attached to the read arm of an optical read/write device without requiring attachment of separate laser elements, and without micropositioning or use of optical microscopy for positioning the lasers. The optical head comprising a single semiconductor substrate including a first region which defines a slider having an air bearing surface, and at least one second, laser region which defines a diode laser, with the diode laser having an emission face which is substantially co-planar with the air bearing surface.Type: GrantFiled: April 23, 2002Date of Patent: June 27, 2006Assignee: Research Investment Network, Inc.Inventors: Robert L. Thornton, Douglas G. Stinson, Roger K. Malmhall, Mathew C. Bashaw
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Patent number: 7039075Abstract: A semiconductor laser, such as a vertical cavity, surface emitting laser (VCSEL) is coupled to an optical fiber. The other end of the optical fiber has a reflector, so as to provide a fiber-extended cavity for the VCSEL. Such a construction is useful for providing modal stability to the VCSEL or for forming a mode-locked VCSEL. The optical fiber may be a graded index fiber. In such a case, the fiber length may be selected to have an integral number of quarter pitch lengths. The fiber may be doped with an excitable species and lies within a fiber laser cavity. A semiconductor laser may pump the fiber laser, yielding an emission wavelength beyond the scope of the conventional semiconductor laser.Type: GrantFiled: April 11, 2003Date of Patent: May 2, 2006Inventor: Robert L. Thornton
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Patent number: 6963530Abstract: A near-field optical apparatus having one or more solid state lasers and an aerodynamically shaped slider which comprise a single integrated, monolithic device fabricated from the same base semiconductor material. The monolithic optical head can be quickly and easily attached to the read arm of an optical read/write device without requiring attachment of separate laser elements, and without micropositioning or use of optical microscopy for positioning the lasers. The optical head comprising a single semiconductor substrate including a first region which defines a slider having an air bearing surface, and at least one second, laser region which defines a diode laser, with the diode laser having an emission face which is substantially co-planar with the air bearing surface.Type: GrantFiled: February 1, 2000Date of Patent: November 8, 2005Assignee: Research Investment Network, Inc.Inventors: Robert L. Thornton, Douglas G. Stinson, Roger K. Malmhall, Mathew C. Bashaw
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Patent number: 6937637Abstract: A near-field optical system having one or more solid state lasers and an aerodynamically shaped slider which comprise a single integrated, monolithic device fabricated from the same base semiconductor material. The monolithic optical head can be quickly and easily attached to the read arm of an optical read/write device without requiring attachment of separate laser elements, and without micropositioning or use of optical microscopy for positioning the lasers. The optical head comprising a single semiconductor substrate including a first region which defines a slider having an air bearing surface, and at least one second, laser region which defines a diode laser, with the diode laser having an emission face which is substantially co-planar with the air bearing surface. A slider region of the semiconductor substrate includes an air bearing surface, adjacent the p-clad layer, which is aerodynamically structured and configured to define a slider.Type: GrantFiled: May 19, 2003Date of Patent: August 30, 2005Assignee: Research Investment Network, Inc.Inventors: Robert L. Thornton, Douglas G. Stinson, Roger K. Malmhall, Matthew C. Bashaw
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Patent number: 6922423Abstract: A control system architecture that allows a semiconductor laser to be stabilized with respect to critical parameters, such as output power and/or emission wavelength, with a reduced cost with respect to the components required to implement control, while simultaneously maintaining or increasing precision of the control function. This is achieved using sophisticated integrated circuitry contained within the laser package to measure data related to multiple laser operation parameters and to transmit these parameters to a control circuit. In particular, precision thermal measurements may be used to eliminate the need for optical detectors in the laser package. The invention described herein has significant utility for different types of semiconductor lasers, including both edge emitting and VCSEL-type semiconductor lasers.Type: GrantFiled: April 11, 2003Date of Patent: July 26, 2005Inventor: Robert L. Thornton
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Patent number: 6807131Abstract: A hybrid magnetic-optical head apparatus wherein one or more solid state lasers, magnetic field biasing elements, magnetic sensing elements, and an aerodynamically shaped slider comprise a single integrated, monolithic device fabricated from the same base semiconductor material into an optical head. The monolithic optical head can be quickly and easily attached to the read arm of an optical read/write device without requiring attachment of separate laser and magnetic elements, and without micropositioning or use of optical microscopy for positioning the lasers or magnetic elements. The hybrid magnetic-optical head apparatus includes a magnetic-optical function region having a semiconductor laser and at least one magnetic element. Preferably, the magnetic-optical function region of the substrate includes a magnetic field biasing element associated with the semiconductor laser, as well as a magnetic sensing element.Type: GrantFiled: December 27, 2000Date of Patent: October 19, 2004Assignee: Research Investment Network, Inc.Inventors: Lambertus Hesselink, Douglas G. Stinson, Robert L. Thornton, Roger F. Malmhäll
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Publication number: 20040202218Abstract: A semiconductor laser, such as a vertical cavity, surface emitting laser (VCSEL) is coupled to an optical fiber. The other end of the optical fiber has a reflector, so as to provide a fiber-extended cavity for the VCSEL. Such a construction is useful for providing modal stability to the VCSEL or for forming a mode-locked VCSEL. The optical fiber may be a graded index fiber. In such a case, the fiber length may be selected to have an integral number of quarter pitch lengths. The fiber may be doped with an excitable species and lies within a fiber laser cavity. A semiconductor laser may pump the fiber laser, yielding an emission wavelength beyond the scope of the conventional semiconductor laser.Type: ApplicationFiled: April 11, 2003Publication date: October 14, 2004Inventor: Robert L. Thornton
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Publication number: 20040202210Abstract: A control system architecture that allows a semiconductor laser to be stabilized with respect to critical parameters, such as output power and/or emission wavelength, with a reduced cost with respect to the components required to implement control, while simultaneously maintaining or increasing precision of the control function. This is achieved using sophisticated integrated circuitry contained within the laser package to measure data related to multiple laser operation parameters and to transmit these parameters to a control circuit. In particular, precision thermal measurements may be used to eliminate the need for optical detectors in the laser package. The invention described herein has significant utility for different types of semiconductor lasers, including both edge emitting and VCSEL-type semiconductor lasers.Type: ApplicationFiled: April 11, 2003Publication date: October 14, 2004Inventor: Robert L. Thornton
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Publication number: 20040202054Abstract: A hybrid magnetic-optical head apparatus wherein one or more solid state lasers, magnetic field biasing elements, magnetic sensing elements, and an aerodynamically shaped slider comprise a single integrated, monolithic device fabricated from the same base semiconductor material into an optical head. The monolithic optical head can be quickly and easily attached to the read arm of an optical read/write device without requiring attachment of separate laser and magnetic elements, and without micropositioning or use of optical microscopy for positioning the lasers or magnetic elements. The hybrid magnetic-optical head apparatus includes a magnetic-optical function region having a semiconductor laser and at least one magnetic element. Preferably, the magnetic-optical function region of the substrate includes a magnetic field biasing element associated with the semiconductor laser, as well as a magnetic sensing element.Type: ApplicationFiled: December 27, 2000Publication date: October 14, 2004Inventors: Lambertus Hesselink, Douglas G. Stinson, Robert L. Thornton, Roger F. Malmhall
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Publication number: 20040008605Abstract: A near-field optical system having one or more solid state lasers and an aerodynamically shaped slider which comprise a single integrated, monolithic device fabricated from the same base semiconductor material. The monolithic optical head can be quickly and easily attached to the read arm of an optical read/write device without requiring attachment of separate laser elements, and without micropositioning or use of optical microscopy for positioning the lasers. The optical head comprising a single semiconductor substrate including a first region which defines a slider having an air bearing surface, and at least one second, laser region which defines a diode laser, with the diode laser having an emission face which is substantially co-planar with the air bearing surface.Type: ApplicationFiled: April 23, 2002Publication date: January 15, 2004Applicant: Siros Technologies, Inc., a California CorporationInventors: Robert L. Thornton, Douglas G. Stinson, Roger K. Malmhall, Mathew C. Bashaw
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Publication number: 20030235230Abstract: A multi-frequency light source is disclosed. In one aspect, a multi-frequency light source may comprise a gain region defined by a first and second mirror. The gain region may have a resonant mode. The light source may also have an external cavity defined by a third mirror and the second mirror. The external cavity has plurality of resonant modes, including a plurality of contiguous desired modes of operation. The second mirror may be formed such that the multi-frequency light source operates at the desired modes of the external cavity.Type: ApplicationFiled: July 20, 2001Publication date: December 25, 2003Applicant: Siros Technologies, Inc.Inventors: Robert L. Thornton, John E. Epler