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 |
20100038562 | RADIATION SOURCE, LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - A radiation source is configured to generate extreme ultraviolet radiation. The radiation source includes a laser constructed and arranged to generate a beam of radiation directed to a plasma generation site where a plasma is generated when the beam of radiation interacts with a fuel, an optical component having a surface that is arranged and positioned to be hit by a droplet of fuel, and a temperature conditioner constructed and arranged to elevate the temperature of the surface. | 02-18-2010 |
20100039631 | RADIATION SOURCES AND METHODS OF GENERATING RADIATION - A radiation source is configured to generate radiation. The radiation source includes a fuel droplet generator constructed and arranged to generate a stream of droplets of fuel that are directed to a plasma generation site; a laser constructed and arranged to generate a laser beam that is directed to the plasma generation site, an angle between the direction of movement of the stream of droplets and the direction of the laser beam being less than about 90°; and a collector constructed and arranged to collect radiation generated by a plasma formed at the plasma formation site when the beam of radiation and a droplet collide. The collector is configured to reflect the radiation substantially along an optical axis of the radiation source. The laser beam is directed to the plasma generation site through an aperture provided in the collector. | 02-18-2010 |
20100157267 | RADIATION SOURCE, LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - A radiation source for generation of extreme ultraviolet radiation or use in high resolution lithography includes a plasma formation site where fuel is contacted by a radiation beam to form a plasma generating EUV radiation. A mirrored collector collects and reflects the EUV radiation generated at a first focus towards a second focus. A contamination barrier is positioned such the periphery of the contamination barrier does not occlude more than 50% of the solid angle subtended by the mirror at the second focus, such that EUV radiation reflected by the collector mirror is not excessively attenuated by passing through the contamination barrier. The contamination barrier serves to trap fuel material such as ions, atoms, molecules or nanodroplets from the plasma to prevent their deposition onto the collector mirror where they reduce the mirror's effective lifetime. | 06-24-2010 |
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 |
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 |
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 |
20150029478 | Fuel Stream Generator, Source Collector Apparatus and Lithographic Apparatus - A fuel stream generator comprising a nozzle connected to a fuel reservoir, wherein the nozzle is provided with a gas inlet configured to provide a sheath of gas around fuel flowing along the nozzle is disclosed. Also disclosed are a method of generating fuel droplets and a lithography apparatus incorporating the fuel stream generator. | 01-29-2015 |
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 |