Patents by Inventor Igor Fomenkov
Igor Fomenkov 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: 9148941Abstract: A first temperature distribution that represents a temperature of an element adjacent to and distinct from a first optical element that is positioned to receive an amplified light beam is accessed. The accessed first temperature distribution is analyzed to determine a temperature metric associated with the element, the determined temperature metric is compared to a baseline temperature metric, and an adjustment to position of the amplified light beam relative to the first optical element is determined based on the comparison.Type: GrantFiled: January 22, 2013Date of Patent: September 29, 2015Assignee: ASML Netherlands B.V.Inventors: Vladimir Fleurov, Igor Fomenkov, Shailendra Srivastava
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Patent number: 8993976Abstract: An apparatus includes a drive laser system producing an amplified light beam of pulses that travels along a drive axis; a beam delivery system that directs the amplified light beam of pulses toward a target region; a target material delivery system that provides a target mixture containing a target material in the target region; two or more sensors radially separated from a main axis that crosses the target region, the two or more sensors being configured to detect energy of ultraviolet electromagnetic radiation emitted from a plasma state of the target material when the amplified light beam of pulses intersects the target mixture; and a controller that receives the output from the two or more sensors. The controller is configured to estimate a relative radial alignment between the target mixture and the drive axis within the target region based on an analysis of the detected energy.Type: GrantFiled: September 30, 2011Date of Patent: March 31, 2015Assignee: ASML Netherlands B.V.Inventors: Matthew Graham, Steven Chang, Jim Crouch, Igor Fomenkov
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Publication number: 20140203195Abstract: A first temperature distribution that represents a temperature of an element adjacent to and distinct from a first optical element that is positioned to receive an amplified light beam is accessed. The accessed first temperature distribution is analyzed to determine a temperature metric associated with the element, the determined temperature metric is compared to a baseline temperature metric, and an adjustment to position of the amplified light beam relative to the first optical element is determined based on the comparison.Type: ApplicationFiled: January 22, 2013Publication date: July 24, 2014Applicant: Cymer, Inc.Inventors: Vladimir Fleurov, Igor Fomenkov, Shailendra Srivastava
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Publication number: 20130043401Abstract: An apparatus includes a drive laser system producing an amplified light beam of pulses that travels along a drive axis; a beam delivery system that directs the amplified light beam of pulses toward a target region; a target material delivery system that provides a target mixture containing a target material in the target region; two or more sensors radially separated from a main axis that crosses the target region, the two or more sensors being configured to detect energy of ultraviolet electromagnetic radiation emitted from a plasma state of the target material when the amplified light beam of pulses intersects the target mixture; and a controller that receives the output from the two or more sensors. The controller is configured to estimate a relative radial alignment between the target mixture and the drive axis within the target region based on an analysis of the detected energy.Type: ApplicationFiled: September 30, 2011Publication date: February 21, 2013Applicant: CYMER, INC.Inventors: Matthew Graham, Steven Chang, Jim Crouch, Igor Fomenkov
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Publication number: 20080179548Abstract: A device is disclosed which may comprise a system generating a plasma at a plasma site, the plasma producing EUV radiation and ions exiting the plasma. The device may also include an optic, e.g., a multi-layer mirror, distanced from the site by a distance, d, and a flowing gas disposed between the plasma and optic, the gas establishing a gas pressure sufficient to operate over the distance, d, to reduce ion energy below a pre-selected value before the ions reach the optic. In one embodiment, the gas may comprise hydrogen and in a particular embodiment, the gas may comprise greater than 50 percent hydrogen by volume.Type: ApplicationFiled: April 10, 2007Publication date: July 31, 2008Applicant: Cymer, Inc.Inventors: Alexander Bykanov, Norbert Bowering, Igor Fomenkov, David Brandt, Alexander Ershov, Oleh Khodykin, William Partlo
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Publication number: 20080023657Abstract: The present invention provides a reliable, high-repetition rate, production line compatible high energy photon source. A very hot plasma containing an active material is produced in vacuum chamber. The active material is an atomic element having an emission line within a desired extreme ultraviolet (EUV) range. A pulse power source comprising a charging capacitor and a magnetic compression circuit comprising a pulse transformer, provides electrical pulses having sufficient energy and electrical potential sufficient to produce the EUV light at an intermediate focus at rates in excess of 5 Watts. In preferred embodiments designed by Applicants in-band, EUV light energy at the intermediate focus is 45 Watts extendable to 105.8 Watts.Type: ApplicationFiled: July 20, 2007Publication date: January 31, 2008Applicant: Cymer, Inc.Inventors: Stephen Melnychuk, William Partlo, Igor Fomenkov, I. Oliver, Richard Ness, Norbert Bowering, Oleh Khodykin, Curtis Rettig, Gerry Blumenstock, Timothy Dyer, Rodney Simmons, Jerzy Hoffman, R. Johnson
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Publication number: 20080017801Abstract: An apparatus and method for EUV light production is disclosed which may comprise a laser produced plasma (“LPP”) extreme ultraviolet (“EUV”) light source control system comprising a target delivery system adapted to deliver moving plasma initiation targets and an EUV light collection optic having a focus defining a desired plasma initiation site, comprising: a target tracking and feedback system comprising: at least one imaging device providing as an output an image of a target stream track, wherein the target stream track results from the imaging speed of the camera being too slow to image individual plasma formation targets forming the target stream imaged as the target stream track; a stream track error detector detecting an error in the position of the target stream track in at least one axis generally perpendicular to the target stream track from a desired stream track intersecting the desired plasma initiation site.Type: ApplicationFiled: December 27, 2006Publication date: January 24, 2008Inventors: Igor Fomenkov, Alexander Ershov
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Publication number: 20070187627Abstract: Systems and methods are disclosed for reducing the influence of plasma generated debris on internal components of an EUV light source. In one aspect, an EUV metrology monitor is provided which may have a heater to heat an internal multi-layer filtering mirror to a temperature sufficient to remove deposited debris from the mirror. In another aspect, a device is disclosed for removing plasma generated debris from an EUV light source collector mirror having a different debris deposition rate at different zones on the collector mirror. In a particular aspect, an EUV collector mirror system may comprise a source of hydrogen to combine with Li debris to create LiH on a collector surface; and a sputtering system to sputter LiH from the collector surface. In another aspect, an apparatus for etching debris from a surface of a EUV light source collector mirror with a controlled plasma etch rate is disclosed.Type: ApplicationFiled: February 13, 2007Publication date: August 16, 2007Applicant: Cymer, Inc.Inventors: Alexander Ershov, William Marx, Norbert Bowering, Bjorn Hansson, Oleh Khodykin, Igor Fomenkov
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Publication number: 20070158597Abstract: An apparatus and method for EUV light production is disclosed which may comprise a laser produced plasma (“LPP”) extreme ultraviolet (“EUV”) light source control system comprising a target delivery system adapted to deliver moving plasma initiation targets and an EUV light collection optic having a focus defining a desired plasma initiation site, comprising: a target tracking and feedback system comprising: at least one imaging device providing as an output an image of a target stream track, wherein the target stream track results from the imaging speed of the camera being too slow to image individual plasma formation targets forming the target stream imaged as the target stream track; a stream track error detector detecting an error in the position of the target stream track in at least one axis generally perpendicular to the target stream track from a desired stream track intersecting the desired plasma initiation site.Type: ApplicationFiled: December 27, 2006Publication date: July 12, 2007Inventors: Igor Fomenkov, Alexander Ershov
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Publication number: 20070158596Abstract: An apparatus and method is described which may comprise a plasma produced extreme ultraviolet (“EUV”) light source multilayer collector which may comprise a plasma formation chamber; a shell within the plasma formation chamber in the form of a collector shape having a focus; the shell having a sufficient size and thermal mass to carry operating heat away from the multilayer reflector and to radiate the heat from the surface of the shell on a side of the shell opposite from the focus. The material of the shell may comprise a material selected from a group which may comprise silicon carbide, silicon, Zerodur or ULE glass, aluminum, beryllium, molybdenum, copper and nickel. The apparatus and method may comprise at least one radiative heater directed at the shell to maintain the steady state temperature of the shell within a selected range of operating temperatures.Type: ApplicationFiled: December 27, 2006Publication date: July 12, 2007Inventors: I. Oliver, William Partlo, Igor Fomenkov, Alexander Ershov, Norbert Bowering, John Viatella, Dave Myers
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Publication number: 20070125970Abstract: An apparatus and method for EUV light production is disclosed which may comprise a laser produced plasma (“LPP”) extreme ultraviolet (“EUV”) light source control system comprising a target delivery system adapted to deliver moving plasma initiation targets and an EUV light collection optic having a focus defining a desired plasma initiation site, comprising: a target tracking and feedback system comprising: at least one imaging device providing as an output an image of a target stream track, wherein the target stream track results from the imaging speed of the camera being too slow to image individual plasma formation targets forming the target stream imaged as the target stream track; a stream track error detector detecting an error in the position of the target stream track in at least one axis generally perpendicular to the target stream track from a desired stream track intersecting the desired plasma initiation site.Type: ApplicationFiled: December 27, 2006Publication date: June 7, 2007Inventors: Igor Fomenkov, Alexander Ershov
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Publication number: 20070114469Abstract: It will be understood that an apparatus and method is disclosed, which may comprise a multi-layer reflecting coating forming an EUV reflective surface which may comprise a spectral filter tuned to selectively highly reflect light in a band centered about at a first preferred wavelength and to significantly reduce the reflection of light at a band centered about a second wavelength, e.g., it may be tuned to reflect maximally or almost maximally, near the top of the reflectivity curve, e.g., at around 13.5 nm and at a significantly lower reflectivity at, e.g., around 11 nm, to discriminate against light near 11 nm and favor light at around 13.5 nm. The spectral filter may comprise a plurality of nested grazing angle of incidence shells comprising reflective surfaces comprising the multi-layer reflective coating. e.g. multilayer mirrors, e.g., with one or more reflecting surfaces per shell.Type: ApplicationFiled: November 21, 2006Publication date: May 24, 2007Inventors: William Partlo, Norbert Bowering, Alexander Ershov, Igor Fomenkov
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Publication number: 20070114468Abstract: An apparatus/method is disclosed that may conmprise an EUV light source which may comprise a collector which may comprise an elliptical collector mirror having a first focus at a plasma initiation point and a second focus at an intermediate focus of the EUV light source; a debris shield intermediate the plasma initiation point and the elliptical collector mirror comprising a plurality of radially extending channels extending from the first focus and aligned to the second focus and in symmetry about an axis of rotation passing through the first focus and aligned to a longitudinal axis of the elliptical collector mirror. The plurality of channels may be formed between a plurality of generally planer foils extending radially from the first focus and aligned to the second focus and in symmetry about an axis of rotation passing through the first focus and aligned to a longitudinal axis of the collector mirror.Type: ApplicationFiled: November 21, 2006Publication date: May 24, 2007Inventors: William Partlo, Alexander Ershov, Igor Fomenkov
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Publication number: 20070029511Abstract: An EUV light source apparatus and method are disclosed, which may comprise a pulsed laser providing laser pulses at a selected pulse repetition rate focused at a desired target ignition site; a target formation system providing discrete targets at a selected interval coordinated with the laser pulse repetition rate; a target steering system intermediate the target formation system and the desired target ignition site; and a target tracking system providing information about the movement of target between the target formation system and the target steering system, enabling the target steering system to direct the target to the desired target ignition site.Type: ApplicationFiled: June 20, 2006Publication date: February 8, 2007Inventors: Robert Akins, Richard Sandstrom, William Partlo, Igor Fomenkov
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Publication number: 20070023705Abstract: An apparatus and method for cleaning a plasma source material compound from a plasma produced EUV light source collector optic which may comprise reacting the plasma source material compound with hydrogen to form a hydride of the plasma source material from the plasma source material contained in the plasma source material compound on the collector optic. The method may further comprise initiating the reacting by introducing hydrogen into a plasma formation chamber containing the collector optic, and may further comprise removing the hydride from the collector optic, e.g., by cleaning plasma action and/or plasma source material sputtering, or other means as may be determined to be effective. An apparatus and method of extending the useful life of a plasma produced EUV light source collector coating layer may comprise in situ replacement of the material of the coating layer by deposition of the coating layer material onto the coating layer.Type: ApplicationFiled: June 27, 2005Publication date: February 1, 2007Applicant: Cymer, Inc.Inventors: William Partlo, Alexander Ershov, Igor Fomenkov, Oleh Khodykin
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Publication number: 20070023711Abstract: An DPP EUV source is disclosed which may comprise a debris mitigation apparatus employing a metal halogen gas producing a metal halide from debris exiting the plasma. The EUV source may have a debris shield that may comprise a plurality of curvilinear shield members having inner and outer surfaces connected by light passages aligned to a focal point, which shield members may be alternated with open spaces between them and may have surfaces that form a circle in one axis of rotation and an ellipse in another. The electrodes may be supplied with a discharge pulse shaped to produce a modest current during the axial run out phase of the discharge and a peak occurring during the radial compression phase of the discharge. The light source may comprise a turbomolecular pump having an inlet connected to the generation chamber and operable to preferentially pump more of the source gas than the buffer gas from the chamber.Type: ApplicationFiled: July 26, 2006Publication date: February 1, 2007Inventors: Igor Fomenkov, William Partlo, Gerry Blumenstock, Nortbert Bowering, I. Oliver, Xiaojiang Pan, Rodney Simmons
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Publication number: 20070008517Abstract: Systems and methods for EUV Light Source metrology are disclosed. In a first aspect, a system for measuring an EUV light source power output may include a photoelectron source material disposed along an EUV light pathway to expose the material and generate a quantity of photoelectrons. The system may further include a detector for detecting the photoelectrons and producing an output indicative of EUV power. In another aspect, a system for measuring an EUV light intensity may include a multi-layer mirror, e.g., Mo/Si, disposable along an EUV light pathway to expose the mirror and generate a photocurrent in the mirror. A current monitor may be connected to the mirror to measure the photocurrent and produce an output indicative of EUV power. In yet another aspect, an off-line EUV metrology system may include an instrument for measuring a light characteristic and MoSi2/Si multi-layer mirror.Type: ApplicationFiled: July 8, 2005Publication date: January 11, 2007Applicant: Cymer, Inc.Inventors: Igor Fomenkov, Norbert Bowering, Jerzy Hoffman
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Publication number: 20070001131Abstract: An apparatus and method is disclosed which may comprise a laser produced plasma EUV system which may comprise a drive laser producing a drive laser beam; a drive laser beam first path having a first axis; a drive laser redirecting mechanism transferring the drive laser beam from the first path to a second path, the second path having a second axis; an EUV collector optical element having a centrally located aperture; and a focusing mirror in the second path and positioned within the aperture and focusing the drive laser beam onto a plasma initiation site located along the second axis. The apparatus and method may comprise the drive laser beam is produced by a drive laser having a wavelength such that focusing on an EUV target droplet of less than about 100 ?m at an effective plasma producing energy if not practical in the constraints of the geometries involved utilizing a focusing lens. The drive laser may comprise a CO2 laser. The drive laser redirecting mechanism may comprise a mirror.Type: ApplicationFiled: June 29, 2005Publication date: January 4, 2007Applicant: Cymer, Inc.Inventors: Alexander Ershov, Alexander Bykanov, Oleh Khodykin, Igor Fomenkov
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Publication number: 20060289808Abstract: An EUV light source collector erosion mitigation system and method is disclosed which may comprise a collector comprising a multilayered mirror collector comprising a collector outer surface composed of a capping material subject to removal due to a removing interaction with materials created in an EUV light-creating plasma; a replacement material generator positioned to deliver replacement material comprising the capping material to the collector outer surface at a rate sufficient to replace the capping material removed due to the removing interaction. The replacement material generator may comprise a plurality of replacement material generators positioned to respectively deliver replacement material to a selected portion of the collector outer surface, which may comprise a sputtering mechanism sputtering replacement capping material onto the collector outer surface.Type: ApplicationFiled: September 28, 2005Publication date: December 28, 2006Applicant: Cymer, Inc.Inventors: William Partlo, Alexander Ershov, Igor Fomenkov
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Publication number: 20060249699Abstract: An EUV light source is disclosed which may comprise at least one optical element having a surface, such as a multi-layer collector mirror; a laser source generating a laser beam; and a source material irradiated by the laser beam to form a plasma and emit EUV light. In one aspect, the source material may consist essentially of a tin compound and may generate tin debris by plasma formation which deposits on the optical element and, in addition, the tin compound may include an element that is effective in etching deposited tin from the optical element surface. Tin compounds may include SnBr4, SnBr2 and SnH4. In another aspect, an EUV light source may comprise a molten source material irradiated by a laser beam to form a plasma and emit EUV light, the source material comprising tin and at least one other metal, for example tin with Gallium and/or Indium.Type: ApplicationFiled: April 17, 2006Publication date: November 9, 2006Applicant: Cymer, Inc.Inventors: Norbert Bowering, Oleh Khodykin, Alexander Bykanov, Igor Fomenkov