Patent application number | Description | Published |
20080266654 | Extreme ultraviolet microscope - An extreme ultraviolet (EUV) microscope configured to analyze a sample. The microscope includes a source of EUV radiation constructed and arranged to generate the EUV radiation with a wavelength at least in a range of about 2-6 nm, and an optical system constructed and arranged to illuminate the sample with the EUV radiation and to collect a radiation emanating from the sample. The optical system is arranged with at least one mirror that includes a multilayer structure for in-phase reflection of at least a portion of the radiation in the range of about 2-6 nm. | 10-30-2008 |
20090040491 | Lithographic apparatus and device manufacturing method - A lithographic system includes a source configured to generate a radiation, the source including a cathode and an anode, the cathode and the anode configured to create a discharge in a fuel located in a discharge space so as to generate a plasma, the discharge space including, in use, a substance configured to adjust radiation emission by the plasma so as to control a volume defined by the plasma; a pattern support configured to hold a patterning device, the patterning device configured to pattern the radiation to form a patterned beam of radiation; a substrate support configured to support a substrate; and a projection system configured to project the patterned beam of radiation onto the substrate. | 02-12-2009 |
20090040492 | Lithographic apparatus and device manufacturing method - A source configured to generate radiation for a lithographic apparatus is disclosed. The source includes an anode, and a cathode. The cathode and the anode are configured to create a discharge in a fuel in a discharge space between the anode and the cathode so as to generate a plasma, the cathode and the anode positioned relative to each other so that, in use, current lines extending between the anode and the cathode are substantially curved so as to create a force that substantially radially compresses the plasma only in a region proximate an upper surface of the cathode or of the anode. | 02-12-2009 |
20100002211 | LITHOGRAPHIC APPARATUS - A discharge produced plasma radiation source includes a laser beam pulse generator configured to provide a laser beam pulse to trigger a pinch in a plasma of the discharge produced plasma radiation source. The laser beam pulse generator is arranged to provide a laser beam pulse having an energy greater than an optimum laser beam pulse energy that corresponds to a maximum output of a given wavelength of radiation for a given discharge energy. | 01-07-2010 |
20100141909 | RADIATION SYSTEM AND LITHOGRAPHIC APPARATUS - A radiation system for generating a beam of radiation that defines an optical axis is provided. The radiation system includes a plasma produced discharge source for generating EUV radiation. The discharge source includes a pair of electrodes constructed and arranged to be provided with a voltage difference, and a system for producing a plasma between the pair of electrodes so as to provide a discharge in the plasma between the electrodes. The radiation system also includes a debris catching shield for catching debris from the electrodes. The debris catching shield is constructed and arranged to shield the electrodes from a line of sight provided in a predetermined spherical angle relative the optical axis, and to provide an aperture to a central area between the electrodes in the line of sight. | 06-10-2010 |
20100290015 | EX-SITU REMOVAL OF DEPOSITION ON AN OPTICAL ELEMENT - A collector assembly with a radiation collector, a cover plate and a support member connecting the radiation collector to the cover plate are provided. The cover plate is designed to cover an opening in a collector chamber. The collector chamber opening may be large enough to pass the radiation collector and the support member. The removed radiation collector can be cleaned with different cleaning procedures, which may be performed in a cleaning device. Such cleaning device may for example consist of the following: a circumferential hull designed to provide an enclosure volume for circumferentially enclosing at least the radiation collector; an inlet configured to provide at least one of a cleaning gas and a cleaning liquid to the enclosure volume to clean at least said radiation collector; and an outlet configured to remove said at least one of said cleaning gas and said cleaning liquid from the enclosure volume. | 11-18-2010 |
20110013167 | APPARATUS WITH PLASMA RADIATION SOURCE AND METHOD OF FORMING A BEAM OF RADIATION AND LITHOGRAPHIC APPARATUS - An apparatus for forming a beam of electromagnetic radiation. The apparatus includes a plasma radiation source, a foil trap provided with a plurality of thin foils that extend substantially parallel to the direction of radiation from the plasma source, and a grid disposed between the plasma radiation source and the foil trap. A space is located between the grid and the foil trap. An electrical potential application circuit is constructed and arranged to apply an electrical potential to the grid so that the grid repels electrons emitted by the plasma radiation source and creates a positive space charge between the grid and the foil trap to deflect ions emitted by the plasma radiation source to the foil trap. A distance between the grid and the foil trap is at least equal to one-half of a radius of the foil trap. | 01-20-2011 |
20110037960 | LITHOGRAPHIC APPARATUS, DEVICE MANUFACTURING METHOD, CLEANING SYSTEM AND METHOD FOR CLEANING A PATTERNING DEVICE - A lithographic apparatus includes an illumination system configured to condition a beam of radiation, and a support structure configured to support a patterning device. The patterning device is configured to impart a pattern to the beam of radiation. The apparatus includes a patterning device cleaning system configured to provide an electrostatic force to contaminant particles that are on the patterning device and that are electrically charged by the beam of radiation, in order to remove the contaminant particles from the patterning device. | 02-17-2011 |
20120229785 | MULTILAYER MIRROR, LITHOGRAPIC APPARATUS, AND METHODS FOR MANUFACTURING A MULTILAYER MIRROR AND A PRODUCT - A multilayer mirror is configured to reflect extreme ultraviolet (EUV) radiation while absorbing a second radiation having a wavelength substantially-longer than that of the EUV radiation. The mirror includes a plurality of layer pairs stacked on a substrate. Each layer pair comprises a first layer that includes a first material, and a second layer that includes a second material. The first layer is modified to reduce its contribution to reflection of the second radiation, compared with a simple layer of the same metal having the same thickness. Modifications can include doping with a third material in or around the metal layer to reduce its electric conductivity by chemical bonding or electron trapping, and/or splitting the metal layer into sub-layers with insulating layers. The number of layers in the stack is larger than known multilayer mirrors and may be tuned to achieve a minimum in IR reflection. | 09-13-2012 |
20120307224 | SPECTRAL PURITY FILTER - A spectral purity filter includes a body of material, through which a plurality of apertures extend. The apertures are arranged to suppress radiation having a first wavelength and to allow at least a portion of radiation having a second wavelength to be transmitted through the apertures. The second wavelength of radiation is shorter than the first wavelength of radiation. The body of material is formed from tungsten-molybdenum alloy or a molybdenum-rhenium alloy or a tungsten-rhenium alloy or a tungsten-molybdenum-rhenium alloy. | 12-06-2012 |
20130010275 | LITHOGRAPHIC APPARATUS AND SPECTRAL PURITY FILTER - A reflector includes a multi layer mirror structure configured to reflect radiation at a first wavelength, and one or more additional layers. The absorbance and refractive index at a second wavelength of the multi layer mirror structure and the one or more additional layers, and the thickness of the multi layer mirror structure and the one or more additional layers, are configured such that radiation of the second wavelength which is reflected from a surface of the reflector interferes in a destructive manner with radiation of the second wavelength which is reflected from within the reflector. | 01-10-2013 |
20130329204 | Photon Source, Metrology Apparatus, Lithographic System and Device Manufacturing Method - A laser driven light source comprises laser and focusing optics. These produce a beam of radiation focused on a plasma forming zone within a container containing a gas (e.g., Xe). Collection optics collects photons emitted by a plasma maintained by the laser radiation to form a beam of output radiation. Plasma has an elongate form (L>d) and collecting optics is configured to collect photons emerging in the longitudinal direction from the plasma. The brightness of the plasma is increased compared with sources which collect radiation emerging transversely from the plasma. A metrology apparatus using the light source can achieve greater accuracy and/or throughput as a result of the increased brightness. Back reflectors may be provided. Microwave radiation may be used instead of laser radiation to form the plasma. | 12-12-2013 |
20140212819 | LITHOGRAPHIC PATTERNING PROCESS AND RESISTS TO USE THEREIN - A lithographic process includes the use of a silicon-containing polymer or a compound that includes at least one element selected from the group consisting of: Ta, W, Re, Os, Ir, Ni, Cu or Zn in a resist material for an EUV lithographic process. The wavelength of the EUV light used in the process is less than 11 nm, for example 6.5-6.9 nm. The invention further relates to novel silicon-containing polymers. | 07-31-2014 |
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 |