Patent application number | Description | Published |
20090073396 | Lithographic apparatus and device manufacturing method - A lithographic apparatus is arranged to project a pattern from a patterning device onto a substrate is disclosed. The lithographic apparatus includes an illumination system and an outlet connected to a pumping system to pump away gas from between an inner wall and outer wall of the illumination system or, if a radiation source is present, between the inner wall of the illumination system and an inner wall of the radiation source. | 03-19-2009 |
20090090877 | MODULE AND METHOD FOR PRODUCING EXTREME ULTRAVIOLET RADIATION - A module for producing extreme ultraviolet radiation includes a supply configured to supply droplets of an ignition material to a predetermined target ignition position and a laser arranged to be focused on the predetermined target ignition position and to produce a plasma by hitting such a droplet which is located at the predetermined target ignition position in order to change the droplet into an extreme ultraviolet producing plasma. Also, the module includes a collector mirror having a mirror surface constructed and arranged to reflect the radiation in order to focus the radiation on a focal point. A fluid supply is constructed and arranged to form a gas flow flowing away from the mirror surface in a direction transverse with respect to the mirror surface in order to mitigate particle debris produced by the plasma. | 04-09-2009 |
20100044591 | RADIATION SOURCE, LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - A radiation source includes a beam generator configured to generate a radiation beam to be used to produce a radiation output of the radiation source, and a beam monitor, configured to monitor the radiation beam. A lithographic apparatus includes the radiation source. A device manufacturing method includes generating a first type of radiation by utilizing a beam of a second type of radiation, monitoring a quality of the second type of radiation, and projecting a patterned beam of the first type of radiation onto a substrate. | 02-25-2010 |
20100053576 | RADIATION SOURCE, LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - A radiation source is configured to produce extreme ultraviolet radiation. The radiation source includes a chamber in which, in use, a plasma is generated, and an evaporation surface configured to evaporate a material formed as a by-product from the plasma and that is emitted to the evaporation surface. A method for removing a by-product material in or from a plasma radiation source of a lithographic apparatus includes evaporating a material which, in use, is emitted to that surface from the plasma. | 03-04-2010 |
20100053581 | RADIATION SOURCE AND LITHOGRAPHIC APPARATUS - A radiation source is configured to generate extreme ultraviolet radiation. The radiation source includes a droplet generator constructed and arranged to generate fuel droplets, a heater constructed and arranged to heat the fuel droplets following generation of the fuel droplets by the droplet generator, and reduce the mass of fuel present in the fuel droplets and/or reduce the density of the fuel droplets, and a radiation emitter constructed and arranged to direct radiation onto the fuel droplets that have been heated by the heater to generate the extreme ultraviolet radiation. | 03-04-2010 |
20100085547 | SOURCE MODULE, RADIATION SOURCE AND LITHOGRAPHIC APPARATUS - A radiation source is configured to generate extreme ultraviolet radiation. The radiation source includes a fuel supply configured to supply a fuel to a plasma formation site; a laser configured to emit a beam of radiation to the plasma formation site so that a plasma that emits extreme ultraviolet radiation is generated when the beam of radiation impacts the fuel; a fuel particulate interceptor constructed and arranged to shield at least part of the radiation source from fuel particulates that are emitted by the plasma, the fuel particulate interceptor comprising a first portion and a second portion, the second portion being positioned closer to the plasma formation site than the first portion, and the first portion being rotatable; and a fuel particulate remover constructed and arranged to remove fuel particulates from a surface of the fuel particulate interceptor and to direct the fuel particulates towards a collection location. | 04-08-2010 |
20100110405 | RADIATION SOURCE AND LITHOGRAPHIC APPARATUS - A source configured to generate EUV radiation includes a fuel droplet generator configured to deliver a droplet of fuel to an interaction point, optics configured to deliver fuel vaporizing and exciting radiation to the interaction point to generate a plasma, and a collector arranged to collect EUV radiation emitted by the plasma. The optics are arranged such that in use the fuel vaporizing and exciting radiation is incident upon more than one side of the fuel droplet at the interaction point. | 05-06-2010 |
20100182579 | LASER DEVICE - A laser device includes a seed laser, an amplifier, a detector, and an optical element arranged to direct radiation emitted by the seed laser towards a plasma generation site. The optical element is arranged to direct towards the detector amplified spontaneous emission radiation which has been emitted by the seed laser and has been reflected from a droplet of fuel material. The detector is arranged to trigger generation of a laser radiation pulse by the seed laser when the reflected amplified spontaneous emission radiation is detected. | 07-22-2010 |
20100231130 | RADIATION SOURCE, LITHOGRAPHIC APPARATUS, AND DEVICE MANUFACTURING METHOD - A plasma radiation source includes a vessel configured to catch a source material transmitted along a trajectory, and a decelerator configured to reduce a speed of the source material in a section of the trajectory downstream of a plasma initiation site. | 09-16-2010 |
20110013166 | RADIATION SYSTEM AND LITHOGRAPHIC APPARATUS - A radiation system includes a target material supply configured to supply droplets of target material along a trajectory, and a laser system that includes an amplifier and optics. The optics are configured to establish a first beam path which passes through the amplifier and through a first location on the trajectory, and to establish a second beam path which passes through the amplifier and through a second location on the trajectory. The laser system is configured to generate a first pulse of laser radiation when photons emitted from the amplifier are reflected along the first beam path by a droplet of target material at the first location on the trajectory. The laser system is configured to generate a second pulse of laser radiation when photons emitted from the amplifier are reflected along the second beam path by the droplet of target material at the second location on the trajectory. | 01-20-2011 |
20110024651 | RADIATION SYSTEM AND METHOD, AND A SPECTRAL PURITY FILTER - A radiation system configured to generate a radiation beam, the radiation system including a chamber including: a radiation source configured to generate radiation; a radiation beam emission aperture; a radiation collector configured to collect radiation generated by the source, and to transmit the collected radiation to the radiation beam emission aperture; and a spectral purity filter configured to enhance a spectral purity of the radiation to be emitted via the aperture, wherein the spectral purity filter is configured to divide the chamber into a high pressure region and a low pressure region. | 02-03-2011 |
20110026002 | EUV RADIATION GENERATION APPARATUS - An EUV radiation generation apparatus includes an optical gain medium configured to produce laser radiation for interaction with a target material to produce an EUV radiation-emitting plasma, and a structure defining an aperture through which the laser radiation may pass. The structure includes a radiation guide having an outer surface constructed and arranged to guide the laser radiation away from the optical gain medium. | 02-03-2011 |
20110122389 | RADIATION SOURCE, LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - A lithographic apparatus includes a source module that include a collector and a radiation source. The collector is configured to collect radiation from the radiation source. An illuminator is configured to condition the radiation, collected by the collector and to provide a radiation beam. A detector is disposed in a fixed positional relationship with respect to the illuminator. The detector is configured to determine a position of the radiation source relative to the collector and a position of the source module relative to the illuminator. | 05-26-2011 |
20110164236 | RADIATION SOURCE AND LITHOGRAPHIC APPARATUS - A radiation source is configured to generate extreme ultraviolet radiation. The radiation source includes a plasma formation site located at a position in which a fuel will be contacted by a beam of radiation to form a plasma, an outlet configured to allow gas to exit the radiation source, and a contamination trap at least partially located inside the outlet. The contamination trap is configured to trap debris particles that are generated with the formation of the plasma. | 07-07-2011 |
20110223543 | RADIATION SYSTEM, RADIATION COLLECTOR, RADIATION BEAM CONDITIONING SYSTEM, SPECTRAL PURITY FILTER FOR RADIATION SYSTEM AND METHOD FOR FORMING A SPECTRAL PURITY FILTER - A radiation system is configured to generate a radiation beam. The radiation system comprising a chamber that includes a radiation source configured to generate radiation, a radiation beam emission aperture, and a radiation collector configured to collect radiation generated by the source, and to transmit the collected radiation to the radiation beam emission aperture. The radiation collector includes a spectral purity filter configured to enhance a spectral purity of the radiation to be emitted via the aperture. | 09-15-2011 |
20110261329 | METHOD AND SYSTEM FOR DETERMINING A SUPPRESSION FACTOR OF A SUPPRESSION SYSTEM AND A LITHOGRAPHIC APPARATUS - The invention relates to a method for determining a suppression factor of a suppression system. The suppression system is arranged to suppress migration of a contaminant gas out of a first system. The suppression factor is an indication of the performance of the suppression system. The method includes introducing a tracer gas in the sub-system, providing a detection system configured to detect the amount of tracer gas that has migrated out of the first system, determining a first suppression factor for the suppression system for the tracer gas. The method further includes determining a second suppression factor for the suppression system for the contaminant gas based on the first suppression factor. | 10-27-2011 |
20120147348 | LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - A lithographic apparatus is arranged to project a pattern from a patterning device onto a substrate is disclosed. The lithographic apparatus includes an illumination system and an outlet connected to a pumping system to pump away gas from between an inner wall and outer wall of the illumination system or, if a radiation source is present, between the inner wall of the illumination system and an inner wall of the radiation source. | 06-14-2012 |
20120182536 | SOURCE COLLECTOR, LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - An EUV lithographic apparatus includes a source collector apparatus in which the extreme ultraviolet radiation is generated by exciting a fuel to provide a plasma emitting the radiation. The source collector apparatus includes a chamber in fluid communication with a guide way external to the chamber. A pump for circulating buffer gas is part of the guide way, and provides a closed loop buffer gas flow. The gas flowing through the guide way traverses a gas decomposer wherein a compound of fuel material and buffer gas material is decomposed, so that decomposed buffer gas material can be fed back into the closed loop flow path. | 07-19-2012 |
20120280148 | EUV RADIATION SOURCE AND LITHOGRAPHIC APPARATUS - An EUV radiation source that includes a fuel supply configured to supply fuel to a plasma formation location. The fuel supply includes a reservoir configured to hold fuel at a temperature that is sufficiently high to maintain the fuel in liquid form, and a pressure vessel configured to contain the reservoir, the pressure vessel being at least partially thermally isolated from the reservoir. The EUV radiation source also includes a laser radiation source configured to irradiate fuel supplied by the fuel supply at the plasma formation location. | 11-08-2012 |
20120280149 | EUV RADIATION SOURCE COMPRISING A DROPLET ACCELERATOR AND LITHOGRAPHIC APPARATUS - An EUV radiation source includes a fuel supply configured to supply fuel to a plasma formation location. The fuel supply includes a nozzle configured to eject droplets of fuel, and a droplet accelerator configured to accelerate the fuel droplets. The EUV radiation source includes a laser radiation source configured to irradiate the fuel supplied by the fuel supply at the plasma formation location. | 11-08-2012 |
20120295205 | Radiation Source, Lithographic Apparatus and Device Manufacturing Method - A radiation source generates extreme ultraviolet radiation for a lithographic apparatus as a chamber that is provided with a low pressure hydrogen environment. A trace amount of a protective compound, e.g., H | 11-22-2012 |
20130077069 | Radiation Source - A radiation source is disclosed that comprises a reservoir that retains a volume of fuel, a nozzle configured to direct a stream of fuel towards a plasma formation location, a laser configured to generate a radiation generating plasma, and a fuel contamination control arrangement. The contamination control arrangement comprises a magnetic field generation element for generating a magnetic field; an electric field generation element for generating an electric field, the magnetic field generation element and the electric field generation element together configured to ensure that the magnetic field and the electric field overlap at a location of contamination within the fuel, and to ensure that lines of flux of the magnetic field and electric field are non-parallel at that location to control movement of the contamination. | 03-28-2013 |
20130141709 | LITHOGRAPHIC APPARATUS, EUV RADIATION GENERATION APPARATUS AND DEVICE MANUFACTURING METHOD - An EUV radiation generation apparatus includes a laser configured to generate pulses of laser radiation, and an optical isolation apparatus that includes a rotatably mounted reflector and a radially positioned reflector. The rotatably mounted reflector and the laser are synchronized such that a reflective surface of the rotatably mounted reflector is in optical communication with the radially positioned reflector when the optical isolation apparatus receives a pulse of laser radiation to allow the pulse of laser radiation to pass to a plasma formation location and cause a radiation emitting plasma to be generated via vaporization of a droplet of fuel material. The rotatably mounted reflector and the laser are further synchronized such that the reflective surface of the rotatably mounted reflector is at least partially optically isolated from the radially positioned reflector when the optical isolation apparatus receives radiation reflected from the plasma formation location. | 06-06-2013 |
20130327955 | RADIATION SOURCE, LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - A radiation source is configured to produce extreme ultraviolet radiation. The radiation source includes a chamber in which, in use, a plasma is generated, and an evaporation surface configured to evaporate a material formed as a by-product from the plasma and that is emitted to the evaporation surface. A method for removing a by-product material in or from a plasma radiation source of a lithographic apparatus includes evaporating a material which, in use, is emitted to that surface from the plasma. | 12-12-2013 |
20140085619 | Lithographic Apparatus, Spectral Purity Filter and Device Manufacturing Method - A lithographic apparatus for patterning a beam of radiation and projecting it onto a substrate, comprising at least two spectral purity filters configured to reduce the intensity of radiation in the beam of radiation in at least one undesirable range of radiation wavelength, wherein the two spectral purity filters are provided with different radiation filtering structures from each other. | 03-27-2014 |
20140160453 | RADIATION SOURCE - A radiation source includes a nozzle configured to direct a stream of fuel droplets along a trajectory towards a plasma formation location; a laser configured to output laser radiation, the laser radiation directed at the fuel droplets at the plasma formation location to generate, in use, a radiation generating plasma; and a catch configured to catch fuel droplets that pass the plasma formation location. The catch includes a container configured to contain a fluid; a driver configured to drive the fluid, to cause the fluid to move; the catch being configured such that the fuel droplets are incident on that moving fluid. | 06-12-2014 |
20140253894 | Radiation Source - A radiation source having a fuel stream generator ( | 09-11-2014 |
20140368802 | RADIATION SOURCE - A radiation source ( | 12-18-2014 |
20140375974 | SOURCE-COLLECTOR DEVICE, LITHOGRAPHIC APPARATUS, AND DEVICE MANUFACTURING METHOD - A source-collector device is constructed and arranged to generate a radiation beam, The device includes a target unit constructed and arranged to present a target surface of plasma-forming material; a laser unit constructed and arranged to generate a beam of radiation directed onto the target surface so as to form a plasma from said plasma-forming material; a contaminant trap constructed and arranged to reduce propagation of particulate contaminants generated by the plasma; a radiation collector comprising a plurality of grazing-incidence reflectors arranged to collect radiation emitted by the plasma and form a beam therefrom; and a filter constructed and arranged to attenuate at least one wavelength range of the beam. | 12-25-2014 |
20150070675 | Fuel System for Lithographic Apparatus, EUV Source, Lithographic Apparatus and Fuel Filtering Method - A fuel supply for an EUV radiation source is disclosed. The fuel supply comprises a reservoir ( | 03-12-2015 |
20150077729 | MODULE AND METHOD FOR PRODUCING EXTREME ULTRAVIOLET RADIATION - A module for producing extreme ultraviolet radiation, including an extreme ultraviolet radiation-emitting source, the source being provided with a supply configured to supply a fluid of an ignition material to a predetermined target ignition position and a target-igniting mechanism constructed and arranged to produce a plasma from the ignition material at the target ignition position, the plasma emitting the extreme ultraviolet radiation; a collector mirror constructed and arranged to focus radiation emitted by the plasma at a focal point; and a heat sink having a thermal energy-diverting surface constructed and arranged to divert thermal energy away from the target ignition position, wherein the heat sink is located at a position proximate the target ignition position. | 03-19-2015 |