Patents Represented by Attorney DiBerardino Law LLC
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Patent number: 8173985Abstract: An extreme ultraviolet light system includes a drive laser system that produces an amplified light beam; a target material delivery system configured to produce a target material at a target location; an extreme ultraviolet light vacuum chamber defining an interior vacuum space that houses an extreme ultraviolet light collector and the target location; and a beam delivery system that is configured to receive the amplified light beam emitted from the drive laser system and to direct the amplified light beam toward the target location. The beam delivery system includes a beam expansion system that expands a size of the amplified light beam and a focusing element that is configured and arranged to focus the amplified light beam at the target location.Type: GrantFiled: December 15, 2009Date of Patent: May 8, 2012Assignee: Cymer, Inc.Inventors: Robert A. Bergstedt, William N. Partlo, Igor V. Fomenkov, Nam-Hyong Kim
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Patent number: 8170078Abstract: A method and apparatus may comprise a line narrowed pulsed excimer or molecular fluorine gas discharge laser system which may comprise a seed laser oscillator producing an output comprising a laser output light beam of pulses which may comprise a first gas discharge excimer or molecular fluorine laser chamber; a line narrowing module within a first oscillator cavity; a laser amplification stage containing an amplifying gain medium in a second gas discharge excimer or molecular fluorine laser chamber receiving the output of the seed laser oscillator and amplifying the output of the seed laser oscillator to form a laser system output comprising a laser output light beam of pulses, which may comprise a ring power amplification stage.Type: GrantFiled: January 7, 2011Date of Patent: May 1, 2012Assignee: Cymer, Inc.Inventors: Alexander I. Ershov, William N. Partlo, Daniel J. W. Brown, Igor V. Fomenkov, Robert A. Bergstedt, Richard L. Sandstrom, Ivan Lalovic
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Patent number: 8144740Abstract: An apparatus/method may comprise a line narrowed pulsed lithography laser light source which may comprise: a seed pulse providing laser system which may comprise: a first pulsed seed laser producing seed pulses at a rate of X kHz; a second pulsed seed laser producing seed pulses at a rate of X kHz; an amplification system which may comprise: a first amplifier gain system which may comprise a first and a second pulsed gas discharge amplifier gain medium, each with a nominal center wavelength in the UV range, and each operating at ½X kHz on output pulses from the first seed laser; a second amplifier gain system which may comprise a first and a second pulsed amplifier gain medium, each with a nominal center wavelength in the UV range, and each operating at ½X kHz on output pulses from the second seed laser.Type: GrantFiled: December 16, 2009Date of Patent: March 27, 2012Assignee: Cymer, Inc.Inventors: Daniel J. W. Brown, William N. Partlo, Richard L. Sandstrom
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Patent number: 8126027Abstract: An apparatus is disclosed which may comprise a grating receiving light, a first prism moveable to coarsely select an angle of incidence of the light on the grating, and a second prism moveable to finely select an angle of incidence of the light on the grating. In one application, the apparatus may be used as a line narrowing module for a laser light source.Type: GrantFiled: April 14, 2011Date of Patent: February 28, 2012Assignee: Cymer, Inc.Inventors: J. Martin Algots, Robert A. Bergstedt, William N. Partlo, German E. Rylov, Richard L. Sandstrom
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Patent number: 8102889Abstract: A method and apparatus are disclosed for controlling bandwidth in a multi-portion laser system comprising a first line narrowed oscillator laser system portion providing a line narrowed seed pulse to an amplifier laser system portion, may comprise utilizing a timing difference curve defining a relationship between a first laser system operating parameter other than bandwidth and the timing difference and also a desired point on the curve defining a desired timing difference, wherein each unique operating point on the curve corresponds to a respective bandwidth value; determining an actual offset from the timing difference at the desired point on the curve to an actual operating point on the curve; determining an error between the actual offset and a desired offset corresponding to a desired bandwidth; modifying the firing differential timing to remove the error between the actual offset and the desired offset.Type: GrantFiled: August 10, 2010Date of Patent: January 24, 2012Assignee: Cymer, Inc.Inventors: Robert N. Jacques, William N. Partlo, Daniel J. W. Brown
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Patent number: 8098698Abstract: According to aspects of an embodiment of the disclosed subject matter, a line narrowed high average power high pulse repetition laser micro-photolithography light source bandwidth control method and apparatus are disclosed which may comprise a bandwidth metrology module measuring the bandwidth of a laser output light pulse beam pulse produced by the light source and providing a bandwidth measurement; a bandwidth error signal generator receiving the bandwidth measurement and a bandwidth setpoint and providing a bandwidth error signal; an active bandwidth controller providing a fine bandwidth correction actuator signal and a coarse bandwidth correction actuator signal responsive to the bandwidth error. The fine bandwidth correction actuator and the coarse bandwidth correction actuator each may induce a respective modification of the light source behavior that reduces bandwidth error. The coarse and fine bandwidth correction actuators each may comprise a plurality of bandwidth correction actuators.Type: GrantFiled: November 1, 2010Date of Patent: January 17, 2012Assignee: Cymer, Inc.Inventors: Wayne J. Dunstan, Robert N. Jacques
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Patent number: 8017924Abstract: An LPP EUV light source is disclosed having an optic positioned in the plasma chamber for reflecting EUV light generated therein and a laser input window. For this aspect, the EUV light source may be configured to expose the optic to a gaseous etchant pressure for optic cleaning while the window is exposed to a lower gaseous etchant pressure to avoid window coating deterioration. In another aspect, an EUV light source may comprise a target material positionable along a beam path to participate in a first interaction with light on the beam path; an optical amplifier; and at least one optic directing photons scattered from the first interaction into the optical amplifier to produce a laser beam on the beam path for a subsequent interaction with the target material to produce an EUV light emitting plasma.Type: GrantFiled: February 4, 2009Date of Patent: September 13, 2011Assignee: Cymer, Inc.Inventors: Alexander N. Bykanov, Igor V. Fomenkov, Alexander I. Ershov
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Patent number: 8014432Abstract: A laser includes a regenerative ring resonator that includes a discharge chamber having electrodes and a gain medium between the electrodes for producing a laser beam; a partially-reflective optical coupler, and a beam modification optical system in the path of the laser beam. The beam modification optical system transversely expands a profile of the laser beam such that the near field laser beam profile uniformly fills each aperture within the laser and such that the regenerative ring resonator remains either conditionally stable or marginally unstable when operating the laser at powers that induce thermal lenses in optical elements inside the regenerative ring resonator.Type: GrantFiled: March 16, 2010Date of Patent: September 6, 2011Assignee: Cymer, Inc.Inventors: Hong Ye, Richard L. Sandstrom, Slava Rokitski, Daniel J. W. Brown, Robert J. Rafac
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Patent number: 8000212Abstract: An extreme ultraviolet light system includes a drive laser system that produces an amplified light beam; a target material delivery system configured to produce a target material at a target location; a beam delivery system configured to receive the amplified light beam emitted from the drive laser system and to direct the amplified light beam toward the target location; and a metrology system. The beam delivery system includes converging lens configured and arranged to focus the amplified light beam at the target location. The metrology system includes a light collection system configured to collect a portion of the amplified light beam reflected from the converging lens and a portion of a guide laser beam reflected from the converging lens. The light collection system includes a dichroic optical device configured to optically separate the portions.Type: GrantFiled: December 15, 2009Date of Patent: August 16, 2011Assignee: Cymer, Inc.Inventors: Vahan Senekerimyan, Nam-Hyong Kim, Robert A. Bergstedt, Igor V. Fomenkov, William N. Partlo
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Patent number: 7999915Abstract: A method and apparatus may comprise a line narrowed pulsed excimer or molecular fluorine gas discharge laser system which may comprise a seed laser oscillator producing an output comprising a laser output light beam of pulses which may comprise a first gas discharge excimer or molecular fluorine laser chamber; a line narrowing module within a first oscillator cavity; a laser amplification stage containing an amplifying gain medium in a second gas discharge excimer or molecular fluorine laser chamber receiving the output of the seed laser oscillator and amplifying the output of the seed laser oscillator to form a laser system output comprising a laser output light beam of pulses, which may comprise a ring power amplification stage.Type: GrantFiled: October 30, 2007Date of Patent: August 16, 2011Assignee: Cymer, Inc.Inventors: Alexander I. Ershov, William N. Partlo, Daniel J. W. Brown, Igor V. Fomenkov, Robert A. Bergstedt, Ivan Lalovic
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Patent number: 7961764Abstract: An apparatus includes a pulsed laser source that produces a pulsed laser beam at an input repetition rate and an input pulse power, a passive pulse splitter that receives the pulsed laser beam and outputs a signal including a plurality of sub-pulses for each input pulse of the pulsed laser beam, a sample, and a detector. The output signal has a repetition rate that is greater than the input repetition rate and the powers of each of the sub-pulses are less than the input pulse power. The sample is placed in the path of a sample beam that is formed from the beam that exits the pulse splitter. The detector receives a signal of interest emitted from the sample.Type: GrantFiled: July 18, 2008Date of Patent: June 14, 2011Assignee: Howard Hughes Medical InstituteInventors: Na Ji, Eric Betzig
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Patent number: 7924432Abstract: A statistically sparse subset of switchable optical sources in a sample is activated, and the activated switchable optical sources are excited such that optical beams are emitted from the activated switchable optical sources along at least two optical paths. A first wavefront modification in a first optical beam emitted from the activated switchable optical sources along a first optical path is introduced and a second wavefront modification in a second optical beam emitted from the activated switchable optical sources along a second optical path is introduced, the second wavefront modification being distinct from the first wavefront modification. The first and second optical beams are interfered with each other to produce a plurality of output beams, and three-dimensional position information of the optical sources is determined based on an intensity of each output beam from the plurality of output beams.Type: GrantFiled: September 10, 2009Date of Patent: April 12, 2011Assignee: Howard Hughes Medical InstituteInventors: Harald F. Hess, Gleb Shtengel
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Patent number: 7920616Abstract: A method/apparatus may comprise a laser light source which may comprise a solid state seed laser system producing a seed laser output having a nominal center wavelength at a pulse repetition rate; a first and a second gas discharge laser amplifier gain medium each operating at a pulse repetition rate less than that of the seed laser system; a beam divider providing each of the respective first and second amplifier gain mediums with seed laser output pulses; a frequency converter modifying the nominal center wavelength of the output of the seed laser to essentially the nominal center wavelength of the amplifier gain medium; a beam combiner combining the outputs of the respective amplifier gain mediums to provide a light source output having the pulse repetition rate of the seed laser; a coherence buster operating on either or both of the output of the seed laser or amplifier gain mediums.Type: GrantFiled: October 30, 2007Date of Patent: April 5, 2011Assignee: Cymer, Inc.Inventors: Daniel J. W. Brown, William N. Partlo, Richard L. Sandstrom
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Patent number: 7899095Abstract: A method and apparatus may comprise a seed laser, along with an amplifier laser amplifying the output of the seed laser. A bandwidth metrology module may provide a bandwidth measurement and a bandwidth error signal may be provided using a bandwidth set point. A differential timing system responsive to the error signal can selectively adjust a differential firing time between the seed laser and amplifier laser. A beam dimension and center wavelength control system may adjust a beam dimension, within the cavity of the seed laser, to select bandwidth, and may adjust center wavelength at the same time, using a plurality of beam expansion prisms and at least one other prism or other optical element in the cavity to select center wavelength.Type: GrantFiled: April 9, 2008Date of Patent: March 1, 2011Assignee: Cymer, Inc.Inventor: William N. Partlo
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Patent number: 7894494Abstract: An apparatus and method which may comprise a seed laser defining an optical cavity producing an output. An amplifier may amplify the seed laser output. A bandwidth error signal generator may provide a bandwidth error signal from measured bandwidth and a target. A bandwidth selection element, which may comprise an adjustable sized aperture external to the cavity of the seed laser may selectively alter the bandwidth of the seed laser output. A bandwidth control system may control the bandwidth control element and also selectively adjust a differential firing time between the seed laser and amplifier or another bandwidth selection actuator to cooperated (coarsely or finely) with the bandwidth selection element to control bandwidth of the laser system.Type: GrantFiled: April 9, 2008Date of Patent: February 22, 2011Assignee: Cymer, Inc.Inventor: Toshihiko Ishihara
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Patent number: 7885309Abstract: A method and apparatus may comprise a line narrowed pulsed excimer or molecular fluorine gas discharge laser system which may comprise a seed laser oscillator producing an output comprising a laser output light beam of pulses which may comprise a first gas discharge excimer or molecular fluorine laser chamber; a line narrowing module within a first oscillator cavity; a laser amplification stage containing an amplifying gain medium in a second gas discharge excimer or molecular fluorine laser chamber receiving the output of the seed laser oscillator and amplifying the output of the seed laser oscillator to form a laser system output comprising a laser output light beam of pulses, which may comprise a ring power amplification stage.Type: GrantFiled: April 13, 2007Date of Patent: February 8, 2011Assignee: Cymer, Inc.Inventors: Alexander I. Ershov, William N. Partlo, Daniel J. W. Brown, Igor V. Fomenkov, Robert A. Bergstedt, Richard L. Sandstrom, Ivan Lalovic
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Patent number: 7822092Abstract: A method and apparatus may comprise a line narrowed pulsed excimer or molecular fluorine gas discharge laser system which may comprise a seed laser oscillator producing an output comprising a laser output light beam of pulses which may comprise a first gas discharge excimer or molecular fluorine laser chamber; a line narrowing module within a first oscillator cavity; a laser amplification stage containing an amplifying gain medium in a second gas discharge excimer or molecular fluorine laser chamber receiving the output of the seed laser oscillator and amplifying the output of the seed laser oscillator to form a laser system output comprising a laser output light beam of pulses, which may comprise a ring power amplification stage.Type: GrantFiled: October 30, 2007Date of Patent: October 26, 2010Assignee: Cymer, Inc.Inventors: Alexander I. Ershov, William N. Partlo, Daniel J. W. Brown, Igor V. Fomenkov, Robert A. Bergstedt
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Patent number: 7822084Abstract: According to aspects of an embodiment of the disclosed subject matter, method and apparatus are disclose that may comprise adjusting a differential timing between gas discharges in the seed laser and amplifier laser for bandwidth control, based on the error signal, or for control of another laser operating parameter other than bandwidth, without utilizing any beam magnification control, or adjusting a differential timing between gas discharges in the seed laser and amplifier laser for bandwidth control, based on the error signal, or for control of another laser operating parameter other than bandwidth, while utilizing beam magnification control for other than bandwidth control, and adjusting a differential timing between gas discharges in the seed laser and amplifier laser for bandwidth control, based on the error signal, or for control of another laser operating parameter other than bandwidth, while utilizing beam magnification control for bandwidth control based on the error signal.Type: GrantFiled: April 9, 2008Date of Patent: October 26, 2010Assignee: Cymer, Inc.Inventors: Kevin M. O'Brien, Robert N. Jacques
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Patent number: 7778302Abstract: A method/apparatus may comprise a seed laser oscillator producing an output which may comprise: a first gas discharge excimer or molecular fluorine laser chamber; a line narrowing module within a first oscillator cavity; a laser amplification stage receiving the output of the seed laser oscillator which may comprise: a ring power amplification stage; a coherence busting mechanism intermediate the seed laser oscillator and the ring power amplification stage which may comprise a beam splitter separating the seed laser output into a main beam and a beam entering an optical delay path which may have a delay length longer than the coherence length of a pulse in the seed laser output and may have a beam angular offset mechanism offsetting a delayed beam and the main beam.Type: GrantFiled: October 30, 2007Date of Patent: August 17, 2010Assignee: Cymer, Inc.Inventors: Alexander I. Ershov, William N. Partlo, Daniel J. W. Brown, Igor V. Fomenkov, Robert A. Bergstedt
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Patent number: 7746913Abstract: An apparatus/method which may comprise a line narrowed pulsed excimer or molecular fluorine gas discharge laser system which may comprise a seed laser oscillator producing an output comprising a seed laser output light beam of pulses which may comprise a first gas discharge excimer or molecular fluorine laser chamber; a line narrowing module within a first oscillator cavity; a laser amplification stage containing an amplifying gain medium in a second gas discharge excimer or molecular fluorine laser chamber receiving the output of the seed laser oscillator and amplifying the output of the seed laser oscillator to form a laser system output comprising a laser system output light beam of pulses, which may comprise a ring power amplification stage; a seed injection mechanism.Type: GrantFiled: October 30, 2007Date of Patent: June 29, 2010Assignee: Cymer, Inc.Inventors: Alexander I. Ershov, William N. Partlo, Daniel J. W. Brown, Igor V. Fomenkov, Robert A. Bergstedt