Patents by Inventor James Gary Eden
James Gary Eden 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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Publication number: 20240063012Abstract: A plasma lamp is provided that employs excitation transfer between two atomic or molecular species so as to preferentially produce light at a specific atomic or molecular emission wavelength. The lamp includes a lamp body. The lamp body includes a top portion, a middle portion having an internal hollow space filled with an energy-donor chemical gas and an energy-acceptor chemical element, and a bottom portion. The lamp body further includes an array of a plurality of cavities connected to the internal hollow space. The internal hollow space and the array of the plurality of cavities are spaced apart from outer surfaces of the lamp body.Type: ApplicationFiled: August 22, 2023Publication date: February 22, 2024Inventors: Sehyun Park, Sung-Jin Park, Andrey Mironov, James Gary Eden
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Publication number: 20210333711Abstract: A fabrication tool has at least one flat lamp photon source, or an array of flat lamps, that serve to non-thermally ablate polymer material from a surface. No photoresist is required and the desired photoablated pattern is determined by inserting a photolithographic mask between the lamp(s) and the surface to be processed. Methods of the invention pattern organic polymer and can pattern a substrate using a pattern established in an organic polymer layer on the substrate, and can also deposit materials in the pattern by breaking bonds in deposition precursors with photons from the microplasma array. Another method converts organic polymer material to have a hydrophylic surface. A tool of the invention can have width and depth comparable to a typical paperback book and a height comparable to a coffee cup.Type: ApplicationFiled: August 13, 2019Publication date: October 28, 2021Inventors: James Gary Eden, Dane Sievers, Andrey Mironov, Jinhong Kim
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Patent number: 11004673Abstract: A product having at least one plasma lamp that includes plates that are approximately parallel, with at least one array of microcavities formed in a surface of at least one plate. When desirable, the plates are separated a fixed distance by spacers with at least one spacer being placed near the plate's edge to form a hermetic seal therewith. A gas makes contact with the microcavity array. Electrodes capable of delivering a time-varying voltage are located such that the application of the time-varying voltage interacts with the gas to form a glow discharge plasma in the microcavities and the fixed volume between the plates. The glow discharge plasma efficiently and uniformly emits radiation that is predominantly in the UV/VUV spectral range with at least a portion of the radiation being emitted from the plasma lamp.Type: GrantFiled: April 16, 2020Date of Patent: May 11, 2021Assignee: Eden Park IlluminationInventors: Sung-Jin Park, Cyrus M. Herring, James Gary Eden
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Publication number: 20200251324Abstract: A product having at least one plasma lamp that includes plates that are approximately parallel, with at least one array of microcavities formed in a surface of at least one plate. When desirable, the plates are separated a fixed distance by spacers with at least one spacer being placed near the plate's edge to form a hermetic seal therewith. A gas makes contact with the microcavity array. Electrodes capable of delivering a time-varying voltage are located such that the application of the time-varying voltage interacts with the gas to form a glow discharge plasma in the microcavities and the fixed volume between the plates. The glow discharge plasma efficiently and uniformly emits radiation that is predominantly in the UV/VUV spectral range with at least a portion of the radiation being emitted from the plasma lamp.Type: ApplicationFiled: April 16, 2020Publication date: August 6, 2020Inventors: Sung-Jin Park, Cyrus M. Herring, James Gary Eden
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Patent number: 10658170Abstract: A plasma lamp includes plates that are approximately parallel, with at least one array of microcavities formed in a surface of at least one plate. When desirable, the plates are separated a fixed distance by spacers with at least one spacer being placed near the plate's edge to form a hermetic seal therewith. A gas makes contact with the microcavity array. Electrodes capable of delivering a time-varying voltage are located on the surface of each plate. At least one electrode is located on an exterior surface of at least one interior plate. Optionally, protective windows may be placed over the electrodes. The application of the time-varying voltage interacts with the gas to form a glow discharge plasma in the microcavities and the fixed volume between the plates (when present). The glow discharge plasma efficiently and uniformly emits UV/VUV radiation over the entire surface of the lamp.Type: GrantFiled: June 27, 2016Date of Patent: May 19, 2020Assignee: Eden Park IlluminationInventors: Sung-Jin Park, Cyrus M. Herring, James Gary Eden
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Patent number: 10625235Abstract: A method for generating a hybrid reaction flows feedstock gas that is also a plasma medium through microchannels. Plasma is generated with the plasma medium via excitation with a time-varying voltage. UV or VUV emissions are generated at a wavelength selected to break a chemical bond in the feedstock gas. The UV or VUV emissions are directed into the microchannels to interact with the plasma medium and generate a reaction product from the plasma medium. A hybrid reactor device includes a microchannel plasma array having inlets and outlets for respectively flowing gas feedstock into and reaction product out of the microchannel plasma array. A UV or VUV emission lamp has its emissions directed into microchannels of the microchannel plasma array. Electrodes ignite plasma in the microchannels and stimulating the UV or VUV emission lamp to generate UV or VUV emissions. One common or plural phased time-varying voltage sources drive the plasma array and the UV or VUV emission lamp.Type: GrantFiled: October 10, 2017Date of Patent: April 21, 2020Assignee: The Board of Trustees of the University of IllinoisInventors: James Gary Eden, Sung-Jin Park, Charles Shin, Andrey Mironov
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Publication number: 20190214244Abstract: A plasma lamp includes plates that are approximately parallel, with at least one array of microcavities formed in a surface of at least one plate. When desirable, the plates are separated a fixed distance by spacers with at least one spacer being placed near the plate's edge to form a hermetic seal therewith. A gas makes contact with the microcavity array. Electrodes capable of delivering a time-varying voltage are located on the surface of each plate. At least one electrode is located on an exterior surface of at least one interior plate. Optionally, protective windows may be placed over the electrodes. The application of the time-varying voltage interacts with the gas to form a glow discharge plasma in the microcavities and the fixed volume between the plates (when present). The glow discharge plasma efficiently and uniformly emits UV/VUV radiation over the entire surface of the lamp.Type: ApplicationFiled: June 27, 2016Publication date: July 11, 2019Inventors: Sung-Jin Park, Cyrus M. Herring, James Gary Eden
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Publication number: 20180099257Abstract: A method for generating a hybrid reaction flows feedstock gas that is also a plasma medium through microchannels. Plasma is generated with the plasma medium via excitation with a time-varying voltage. UV or VUV emissions are generated at a wavelength selected to break a chemical bond in the feedstock gas. The UV or VUV emissions are directed into the microchannels to interact with the plasma medium and generate a reaction product from the plasma medium. A hybrid reactor device includes a microchannel plasma array having inlets and outlets for respectively flowing gas feedstock into and reaction product out of the microchannel plasma array. A UV or VUV emission lamp has its emissions directed into microchannels of the microchannel plasma array. Electrodes ignite plasma in the microchannels and stimulating the UV or VUV emission lamp to generate UV or VUV emissions. One common or plural phased time-varying voltage sources drive the plasma array and the UV or VUV emission lamp.Type: ApplicationFiled: October 10, 2017Publication date: April 12, 2018Inventors: James Gary Eden, Sung-Jin Park, Charles Shin, Andrey Mironov
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Patent number: 8689537Abstract: It is disclosed herein a breakthrough concept for in-space propulsion for future Air Force, NASA and commercial systems. The invention combines the fields of micro-electrical-mechanical (MEMs) devices, optical physics, and nonequilibrium plasmadynamics to reduce dramatically the size of electric thrusters by 1-2 orders of magnitude, which when coupled with electrodeless operation and high thruster efficiency, will enable scalable, low-cost, long-life distributable propulsion for control of microsats, nanosats, and space structures. The concept is scalable from power levels of 1 W to tens of kilowatts with thrust efficiency exceeding 60%. Ultimate specific impulse would be 500 seconds with helium, with lower values for heavier gases.Type: GrantFiled: October 19, 2009Date of Patent: April 8, 2014Assignee: CU Aerospace, LLCInventors: Rodney L. Burton, James Gary Eden, Sung-Jin Park, David L. Carroll
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Patent number: 7804877Abstract: The present invention provides in one of the embodiments for either a continuous wave (cw) or pulsed alkali laser having an optical cavity resonant at a wavelength defined by an atomic transition, a van der Waals complex within the optical cavity, the van der Waals complex is formed from an alkali vapor joined with a polarizable gas, and a pump laser for optically pumping the van der Waals complex outside of the Lorentzian spectral wings wherein the van der Waals complex is excited to form an exciplex that dissociates forming an excited alkali vapor, generating laser emission output at the wavelength of the lasing transition.Type: GrantFiled: May 19, 2008Date of Patent: September 28, 2010Assignees: CU Aerospace, LLC, The Board of the University of IllinoisInventors: Joseph T. Verdeyen, James Gary Eden, David L. Carroll, Jason D. Readle, Clark J. Wagner
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Publication number: 20080285614Abstract: The present invention provides in one of the embodiments for either a continuous wave (cw) or pulsed alkali laser having an optical cavity resonant at a wavelength defined by an atomic transition, a van der Waals complex within the optical cavity, the van der Waals complex is formed from an alkali vapor joined with a polarizable gas, and a pump laser for optically pumping the van der Waals complex outside of the Lorentzian spectral wings wherein the van der Waals complex is excited to form an exciplex that dissociates forming an excited alkali vapor, generating laser emission output at the wavelength of the lasing transition.Type: ApplicationFiled: May 19, 2008Publication date: November 20, 2008Applicants: CU AEROSPACE, LLC, THE BOARD OF THE UNIVERSITY OF ILLINOISInventors: Joseph T. Verdeyen, James Gary Eden, David L. Carroll, Jason D. Readle, Clark J. Wagner
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Patent number: 6541915Abstract: Start-up and re-ignition of a high pressure arc lamp are aided by injection of electrons toward a high pressure arc lamp electrode. A microdischarge device directs electrons toward an electrode of the arc lamp and is preferably turned off during normal operation of the arc lamp. The harsh environment of an arc lamp requires the microdischarge to be made from robust materials, such as ceramics, semiconductors or tungsten, for example. In the present invention, the discharge design must allow, preferably through a screen anode, for the escape of electrons from the microdischarge. This invention results in a decrease in the voltage required to start-up or re-ignite a lamp.Type: GrantFiled: July 23, 2001Date of Patent: April 1, 2003Assignee: The Board of Trustees of the University of IllinoisInventors: James Gary Eden, Ju Gao, Sung-Jin Park, Clark J. Wagner