Patents by Inventor German Rylov
German Rylov 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: 20100074295Abstract: An apparatus and method are disclosed which may comprise a pulsed gas discharge laser lithography light source which may comprise a seed laser portion providing a seed laser output light beam of seed pulses; an amplifier portion receiving the seed laser output light beam and amplifying the optical intensity of each seed pulse to provide a high power laser system output light beam of output pulses; the amplifier portion may comprise a ring power amplifier comprising amplifier portion injection optics comprising at least one beam expanding prism, a beam reverser and an input/output coupler; the beam expansion optics and the output coupler may be mounted on an optics assembly with the beam expansion optics rigidly mounted with respect to the optics assembly and the input/output coupler mounted for relative movement with respect to the optics assembly for optical alignment purposes.Type: ApplicationFiled: November 20, 2009Publication date: March 25, 2010Applicant: Cymer, Inc.Inventors: William N. Partlo, Alexander I. Ershov, German Rylov, Igor V. Fomenkov, Daniel J.W. Brown, Christian J. Wittak, Rajasekhar M. Rao, Robert A. Bergstedt, John Fitzgerald, Richard L. Sandstrom, Vladimir B. Fleurov, Robert N. Jacques, Ed Danielewicz, Robin Swain, Edmond Arriola, Mike Wyatt, Walter Crosby
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Patent number: 7643528Abstract: An apparatus and method which may comprise a pulsed gas discharge laser which may comprise a seed laser portion; an amplifier portion receiving the seed laser output and amplifying the optical intensity of each seed pulse; a pulse stretcher which may comprise: a first beam splitter operatively connected with the first delay path and a second pulse stretcher operatively connected with the second delay path; a first optical delay path tower containing the first beam splitter; a second optical delay path tower containing the second beam splitter; one of the first and second optical delay paths may comprise: a plurality of mirrors defining the respective optical delay path including mirrors located in the first tower and in the second tower; the other of the first and second optical delay paths may comprise: a plurality of mirrors defining the respective optical delay path including mirrors only in one of the first tower and the second tower.Type: GrantFiled: October 10, 2007Date of Patent: January 5, 2010Assignee: Cymer, Inc.Inventors: William N. Partlo, Alexander I. Ershov, German Rylov, Igor V. Fomenkov, Daniel J. W. Brown, Christian J. Wittak, Rajasekhar M. Rao, Robert A. Bergstedt, John Fitzgerald, Richard L. Sandstrom, Vladimir B. Fleurov, Robert N. Jacques, Ed Danielewicz, Robin Swain, Edward Arriola, Michael Wyatt, Walter Crosby
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Publication number: 20090080476Abstract: An apparatus and method which may comprise a pulsed gas discharge laser which may comprise a seed laser portion; an amplifier portion receiving the seed laser output and amplifying the optical intensity of each seed pulse; a pulse stretcher which may comprise: a first beam splitter operatively connected with the first delay path and a second pulse stretcher operatively connected with the second delay path; a first optical delay path tower containing the first beam splitter; a second optical delay path tower containing the second beam splitter; one of the first and second optical delay paths may comprise: a plurality of mirrors defining the respective optical delay path including mirrors located in the first tower and in the second tower; the other of the first and second optical delay paths may comprise: a plurality of mirrors defining the respective optical delay path including mirrors only in one of the first tower and the second tower.Type: ApplicationFiled: October 10, 2007Publication date: March 26, 2009Applicant: Cymer, Inc.Inventors: William N. Partlo, Alexander I. Ershov, German Rylov, Igor V. Fomenkov, Daniel J.W. Brown, Christian J. Wittak, Rajasekhar M. Rao, Robert A. Bergstedt, John Fitzgerald, Richard L. Sandstrom, Vladimir B. Fleurov, Robert N. Jacques, Ed Danielewicz, Robin Swain, Edward Arriola, Mike Wyatt, Walter Crosby
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Publication number: 20070001127Abstract: In a first aspect, a lithography apparatus may comprise a mask designed using optical proximity correction (OPC), a pulsed laser source, and an active bandwidth control system configured to increase the bandwidth of a subsequent pulse in response to a measured pulse bandwidth that is below a predetermined bandwidth range and increase a bandwidth of a subsequent pulse in response to a measured pulse bandwidth that is above the predetermined bandwidth range. In another aspect an active bandwidth control system may include an optic for altering a wavefront of a laser beam in a laser cavity of the laser source to selectively adjust an output laser bandwidth in response to the control signal. In yet another aspect, the bandwidth of a laser having a wavelength variation across an aperture may be actively controlled by an aperture blocking element that is moveable to adjust a size of the aperture.Type: ApplicationFiled: June 30, 2005Publication date: January 4, 2007Applicant: Cymer, Inc.Inventors: Daniel Reiley, German Rylov, Robert Bergstedt
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Publication number: 20060114957Abstract: A line narrowing method and module for a narrow band DUV high power high repetition rate gas discharge laser producing output laser light pulse beam pulses in bursts of pulses, the module having a nominal optical path are disclosed which may comprise: a dispersive center wavelength selection optic moveably mounted within an optical path of the line narrowing module, selecting at least one center wavelength for each pulse determined at least in part by the angle of incidence of the laser light pulse beam containing the respective pulse on the dispersive wavelength selection optic; a first tuning mechanism operative in part to select the angle of incidence of the laser light pulse beam containing the respective pulse upon the dispersive center wavelength selection optic, by selecting an angle of transmission of the laser light pulse beam containing the pulse toward the dispersive center wavelength selection optic; a second tuning mechanism operative in part to select the angle of incidence of the laser light puType: ApplicationFiled: November 30, 2004Publication date: June 1, 2006Inventors: J. Martin Algots, Robert Bergstedt, Walter Gillespie, Vladimir Kulgeyko, William Partlo, German Rylov, Richard Sandstrom, Brian Strate, Timothy Dyer
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Publication number: 20050083983Abstract: An apparatus and method are disclosed for operating a narrow band short pulse duration gas discharge laser output light pulse beam producing system, producing a beam comprising laser output light pulses at a selected pulse repetition rate, which may comprise: a dispersive center wavelength selection optic selecting at least one center wavelength for each pulse determined at least in part by the angle of incidence of the laser light pulse beam containing the respective pulse on the dispersive wavelength selection optic; a tuning mechanism operative to select at least one angle of incidence of a first spatially defined portion of the laser light pulse beam containing the respective pulse upon the dispersive center wavelength selection optic; and, the tuning mechanism comprising a variably refractive optical element defining a plurality of refractive angular displacements of the first spatially defined portion of the laser light pulse beam passing through the variably refractive optical element at one of a pluraType: ApplicationFiled: October 1, 2004Publication date: April 21, 2005Inventors: Richard Sandstrom, William Partlo, Daniel Brown, Thomas Yager, Alexander Ershov, Robert Rafac, German Rylov