Patent application number | Description | Published |
20100103395 | FLY'S EYE INTEGRATOR, ILLUMINATOR, LITHOGRAPHIC APPARATUS AND METHOD - A transmissive fly's eye integrator is disclosed that includes a first array of lenses and a second array of lenses. The first array of lenses and second array of lenses together form a fly's eye integrator, and the first array of lenses and second array of lenses comprise lenses which have a diameter selected from the range of 5 μm-50 μm, and a radius of curvature selected from the range of 25 μm-2500 μm. | 04-29-2010 |
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 |
20100151394 | System for Contactless Cleaning, Lithographic Apparatus and Device Manufacturing Method - Embodiments of the invention relate to a system for contactless cleaning of an object surface, a lithographic apparatus including the system, and a method of manufacturing a device. The system may include a He plasma source contained in a chamber and a control unit constructed to modify plasma parameters in use, such as the electron energy distribution of the plasma for causing an increase in formation of He metastables without modifying operational parameters of the plasma source. The control unit may include an electrical biasing unit constructed to apply a positive bias voltage to the object, for attracting free electrons from the plasma. The system may include a supplementary gas source, which may be either pre-mixed with He or be supplied from a further gas source. The supplementary gas may be selected based on a pre-knowledge on a type of particles to be expected on the surface of the object. | 06-17-2010 |
20100253928 | RADIATION SOURCE - A radiation source includes a chamber, a supply constructed and arranged to supply a substance to the chamber at a location that allows the substance to pass through an interaction point within the chamber, a laser constructed and arranged to provide a laser beam to the interaction point so that a radiation emitting plasma is produced when the laser beam interacts with he substance at the interaction point, and a conduit constructed and arranged to deliver unheated buffer gas into the chamber at a location adjacent to the interaction point at a rate that removes heated buffer gas from a region around the interaction point before a subsequent interaction between the laser beam and the substance at the interaction point. | 10-07-2010 |
20100328639 | SPECTRAL PURITY FILTER, LITHOGRAPHIC APPARATUS, AND METHOD FOR MANUFACTURING A SPECTRAL PURITY FILTER - A transmissive spectral purity filter is configured to transmit extreme ultraviolet radiation. The spectral purity filter includes a filter part having a plurality of apertures to transmit extreme ultraviolet radiation and to suppress transmission of a second type of radiation. The apertures may be manufactured in carrier material such as silicon by an anisotropic etching process and topped with a reflective layer such as Mo metal, Ru metal, TiN or RuO. A diffusion barrier layer such as silicon nitride Si | 12-30-2010 |
20110001254 | Imprint Lithography Apparatus and Method - An imprint lithography apparatus is disclosed that includes an imprint template holder arranged to hold an imprint template, and a plurality of position sensors configured to measure change of the size and/or shape of the imprint template, wherein the position sensors are mechanically isolated from the imprint template. Also disclosed is a lithography method that includes using an imprint template to imprint a pattern onto a substrate, and measuring changes of the size and/or shape of the imprint template while imprinting the pattern onto the substrate. | 01-06-2011 |
20110008483 | IMPRINT LITHOGRAPHY APPARATUS - An imprint lithography apparatus is disclosed that includes a structure located away from a substrate holder and extending across the substrate holder, and such that an imprint template arrangement is, in use, located between the structure and the substrate holder, wherein the structure has one or more arrays of lines or one or more encoders, and the substrate or substrate holder and the imprint template have a corresponding one or more encoders that face towards one or more of the one or more arrays of lines or one or more arrays of lines that face towards one or more of the one or more encoders, and the configuration determination arrangement is configured to determine a relative configuration between the substrate or substrate holder and the structure, and/or a relative configuration between the imprint template arrangement and the structure, and/or a relative configuration between the imprint template arrangement and the substrate or substrate holder. | 01-13-2011 |
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 |
20110019174 | OPTICAL ELEMENT, LITHOGRAPHIC APPARATUS INCLUDING SUCH AN OPTICAL ELEMENT, DEVICE MANUFACTURING METHOD, AND DEVICE MANUFACTURED THEREBY - An optical element includes a first layer that includes a first material, and is configured to be substantially reflective for radiation of a first wavelength and substantially transparent for radiation of a second wavelength. The optical element includes a second layer that includes a second material, and is configured to be substantially absorptive or transparent for the radiation of the second wavelength. The optical element includes a third layer that includes a third material between the first layer and the second layer, and is substantially transparent for the radiation of the second wavelength and configured to reduce reflection of the radiation of the second wavelength from a top surface of the second layer facing the first layer. The first layer is located upstream in the optical path of incoming radiation with respect to the second layer in order to improve spectral purity of the radiation of the first wavelength. | 01-27-2011 |
20110020752 | EXTREME ULTRAVIOLET RADIATION SOURCE AND METHOD FOR PRODUCING EXTREME ULTRAVIOLET RADIATION - A radiation source is constructed and arranged to produce extreme ultraviolet radiation. The radiation source includes a chamber, a first electrode at least partially contained in the chamber, a second electrode at least partially contained in the chamber, and a supply constructed and arranged to provide a discharge gas to the chamber. The first electrode and the second electrode are configured to create a discharge in the discharge gas to form a plasma so as to generate the extreme ultraviolet radiation. The source also includes a gas supply constructed and arranged to provide a gas at a partial pressure between about 1 Pa and about 10 Pa at a location near the discharge. The gas is selected from the group consisting of hydrogen, helium, and a mixture of hydrogen and helium. | 01-27-2011 |
20110043777 | TARGET MATERIAL, A SOURCE, AN EUV LITHOGRAPHIC APPARATUS AND A DEVICE MANUFACTURING METHOD USING THE SAME - A target material is configured to be used in a source constructed and arranged to generate a radiation beam having a wavelength in an extreme ultraviolet range. The target material includes a Gd-based composition configured to modify a melting temperature of Gd. | 02-24-2011 |
20110043782 | SPECTRAL PURITY FILTERS FOR USE IN A LITHOGRAPHIC APPARATUS - A spectral purity filter includes a plurality of apertures extending through a member. 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, A first region of the spectral purity filter has a first configuration that results in a first radiation transmission profile for the radiation having the first wavelength and the radiation having the second wavelength, and a second region of the spectral purity filter has a second, different configuration that results in a second, different radiation transmission profile for the radiation having the first wavelength and the radiation having the second wavelength. | 02-24-2011 |
20110044425 | SPECTRAL PURITY FILTERS FOR USE IN A LITHOGRAPHIC APPARATUS - A spectral purity filter includes a plurality of apertures extending through a member. The apertures are arranged to suppress a first wavelength of radiation and to allow at least a portion of a second wavelength of radiation to be transmitted through the apertures. The second wavelength of radiation is shorter than the first wavelength of radiation. The apertures extend though the member in different directions in order to be substantially in alignment with radiation constituting a non-parallel beam of radiation. | 02-24-2011 |
20110049097 | IMPRINT LITHOGRAPHY METHOD AND APPARATUS - In an embodiment, there is provided an imprint lithography method that includes providing a first amount of imprintable medium on a first area of a substrate, the first amount of imprintable medium, when fixed, having a first etch rate; and providing a second amount of imprintable medium on a second, different area of the substrate, the second amount of imprintable medium, when fixed, having a second, different etch rate. | 03-03-2011 |
20110076352 | IMPRINT LITHOGRAPHY - A method of determining an offset between an imprint template and a substrate using an alignment grating on the imprint template and an alignment grating on the substrate is disclosed. The method includes bringing the imprint template alignment grating and the substrate alignment grating sufficiently close together such that they form a composite grating, directing an alignment radiation beam at the composite grating while modulating the relative position of the imprint template and the substrate, detecting the intensity of alignment radiation which is reflected from the composite grating, and determining the offset by analyzing modulation of the detected intensity. | 03-31-2011 |
20110080573 | MULTILAYER MIRROR AND LITHOGRAPHIC APPARATUS - A multilayer mirror is constructed and arranged to reflect radiation haying a wavelength in the range of 2-8 nm. The multilayer mirror has alternating layers selected from the group consisting of: Cr and Sc layers, Cr and C layers, C and B | 04-07-2011 |
20110117504 | METHOD FOR REMOVING A DEPOSITION ON AN UNCAPPED MULTILAYER MIRROR OF A LITHOGRAPHIC APPARATUS, LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - A method for removal of a deposition on an uncapped multilayer mirror of an apparatus. The method includes providing a gas that includes one or more of H | 05-19-2011 |
20110134405 | RADIATION SOURCE, LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - A radiation source is configured to generate radiation. The radiation source includes a first electrode and a second electrode configured to produce an electrical discharge during use to generate radiation-emitting plasma from a plasma fuel. The radiation source also includes a fuel supply configured to supply a plasma fuel to a fuel release area that is associated with the first electrode and the second electrode, and a fuel release configured to induce release of fuel, supplied by the fuel supply, from the fuel release area. The fuel release area is spaced-apart from the first electrode and from the second electrode. | 06-09-2011 |
20110143269 | RADIATION SOURCE, LITHOGRAPHIC APPARATUS, AND DEVICE MANUFACTURING METHOD - A spectral purity filter is configured to transmit extreme ultraviolet (EUV) radiation and deflect or absorb non-EUV secondary radiation. In an embodiment, the spectral purity filter includes a body of material highly transmissive of EUV radiation and a layer of material highly reflective of non-EUV secondary radiation located on a radiation incident side of the body. In an embodiment, the spectral purity filter includes a body of material highly transmissive of EUV radiation and a layer of high emissivity material on an end of the body. | 06-16-2011 |
20110143288 | RADIATION SOURCE, LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - A lithographic apparatus includes a source configured to generate a radiation beam comprising desired radiation and undesired radiation using a plasma, an illumination system configured to condition the radiation beam and to receive hydrogen gas during operation of the lithographic apparatus, and a support structure constructed to hold a patterning device. The patterning device is capable of imparting the radiation beam with a pattern in its cross-section to form a patterned radiation beam. A substrate table is constructed to hold a substrate, and a projection system is configured to project the patterned radiation beam onto a target portion of the substrate. The lithographic apparatus is configured such that the radiation beam on entering the projection system includes at least 50% of the undesired radiation that is generated by the plasma and includes wavelengths of radiation that interact with the hydrogen gas to generate hydrogen radicals. | 06-16-2011 |
20110149276 | Method of Detecting a Particle and a Lithographic Apparatus - A detector detects radiation from a mask to form an image, but the focal plane of the image is in front of the mask. Any particles arranged on the mask will be in focus. However, the pattern on the mask will be out of focus. It is therefore possible to detect the existence and location of particles on a mask having an arbitrary pattern. The depth of field of the detector is small and the focal plane is no further from the surface of the patterning device than two times the depth of field. | 06-23-2011 |
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 |
20110170079 | RADIATION SYSTEM AND LITHOGRAPHIC APPARATUS - A radiation system is configured to generate a radiation beam. The radiation system includes a radiation source configured to generate a plasma that emits radiation and debris, and a radiation collector configured to direct collected radiation to a radiation beam emission aperture. A magnetic field generator is configured to generate a magnetic field with a gradient in magnetic field strength to direct the plasma away from the radiation collector. | 07-14-2011 |
20110170083 | Lithographic Apparatus and Device Manufacturing Method - A system and method are used to detect thermal radiation from a mask. Debris particles on the mask heat up, but do not cool down as quickly as the surrounding mask. Due to the temperature difference, the wavelength of radiation emitted by particles and the mask differs. Thus by detecting the thermal radiation, it is possible to detect the presence of particles deposited on the mask. If particles are detected, the mask can be cleaned. | 07-14-2011 |
20110188014 | RADIATION SOURCE, LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - A lithographic apparatus includes a radiation source configured to produce extreme ultraviolet radiation, the radiation source including a chamber in which a plasma is generated; a collector mirror configured to reflect radiation emitted by the plasma; and a debris mitigation system including a gas supply system configured to supply a first gas flow toward the plasma, the first gas flow being selected to thermalize debris generated by the plasma, and a plurality of gas manifolds arranged at a location proximate the collector mirror, the gas manifolds configured to supply a second gas flow in the chamber, the second gas flow being directed toward the plasma to prevent thermalized debris from depositing on the collector mirror. | 08-04-2011 |
20110188016 | LITHOGRAPHIC APPARATUS, PROGRAMMABLE PATTERNING DEVICE AND LITHOGRAPHIC METHOD - In an embodiment, a lithographic apparatus is disclosed that includes a modulator configured to expose an exposure area of the substrate to a plurality of beams modulated according to a desired pattern and a projection system configured to project the modulated beams onto the substrate. The modulator may be moveable with respect the exposure area and/or the projection system may have an array of lenses to receive the plurality of beams, the array of lenses moveable with respect to the exposure area. | 08-04-2011 |
20110211185 | Spectral Purity Filter, Radiation Source, Lithographic Apparatus, and Device Manufacturing Method - A spectral purity filter is configured to allow transmission therethrough of extreme ultraviolet (EUV) radiation and to refract or reflect non-EUV secondary radiation. The spectral purity filter may be part of a source module and/or a lithographic apparatus. | 09-01-2011 |
20110222040 | RADIATION SOURCE APPARATUS, LITHOGRAPHIC APPARATUS, METHOD OF GENERATING AND DELIVERING RADIATION AND METHOD FOR MANUFACTURING A DEVICE - A contaminant trap is used in an EUV radiation source apparatus. An EUV radiation beam is generated and focused through a low pressure gaseous atmosphere into a virtual source point. The EUV radiation creates a plasma in the low pressure hydrogen atmosphere through which it passes. A contaminant trap including electrodes is located in or around radiation beam as it approaches the virtual source point. A DC biasing source is connected to the electrodes to create an electric field oriented to deflect out of the beam path contaminant particles that have been negatively charged by the plasma. Additional RF electrodes and/or an ionizer enhance the plasma to increase the charging of the particles. The deflecting electrodes can be operated with RF bias for a short time, to ensure dissipation of the enhanced plasma. | 09-15-2011 |
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 |
20110226735 | IMPRINT LITHOGRAPHY - An imprint lithography method is disclosed that includes, after imprinting an imprint lithography template into a layer of imprintable medium to form a pattern in that imprintable medium and fixing that pattern to form a patterned layer of imprintable medium, adding etch resistant material (i.e. a hard mask) to a part of the patterned layer of imprintable medium to reduce a difference between an intended topography and an actual topography of that part of the patterned layer of imprintable medium. | 09-22-2011 |
20110228243 | Mirror, Lithographic Apparatus and Device Manufacturing Method - Embodiments of the invention relate to a mirror ( | 09-22-2011 |
20110233825 | IMPRINT LITHOGRAPHY - An imprint lithography apparatus is disclosed which includes a pattern fixing system configured to use actinic radiation to fix a pattern provided in a layer of imprintable medium by an imprint lithography template, and an inspection system configured to use inspection radiation to inspect an element constituting or, in use, being located within, the imprint lithography apparatus. The imprint lithography apparatus is configured such that the pattern fixing system and the inspection system are provided, in use, with, respectively, actinic radiation and inspection radiation from a single source of radiation. | 09-29-2011 |
20110292366 | MULTILAYER MIRROR AND LITHOGRAPHIC APPARATUS - A multilayer mirror to reflect radiation having a wavelength in the range of 2-8 nm has alternating layers. The alternating layers include a first layer and a second layer. The first and second layers are selected from the group consisting of: U and B | 12-01-2011 |
20120127467 | Object Inspection Systems and Methods - Methods and systems for inspection of an object include the use of spectroscopic techniques for the detection of unwanted particles on an object's surface, based on the different responses of the unwanted particles as compared with the object to be inspected due to their different materials. Time resolved spectroscopy and/or energy resolved spectroscopy of secondary photon emission from the surface of the object can be used to obtain Raman and photoluminescence spectra. The objects to be inspected can for example be a patterning device as used in a lithographic process, for example a reticle, in which case the presence of metal, metal oxide or organic particles can be detected, for example. The methods and apparatus are highly sensitive, for example, being able to detect small particles (sub 100 nm, particularly sub 50 nm) on the patterned side of an EUV reticle. | 05-24-2012 |
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 |
20120182537 | SPECTRAL PURITY FILTER, LITHOGRAPHIC APPARATUS, AND DEVICE MANUFACTURING METHOD - A spectral purity filter, in particular for use in a lithographic apparatus using EUV radiation for the projection beam, includes a plurality of apertures in a substrate. The apertures are defined by walls having side surfaces that are inclined to the normal to a front surface of the substrate. | 07-19-2012 |
20120182538 | Methods and Apparatus for Inspection Of Articles, EUV Lithography Reticles, Lithography Apparatus and Method of Manufacturing Devices - An article such as an EUV lithography reticle is inspected to detect contaminant particles. The method comprises applying a fluorescent dye material to the article, illuminating the article with radiation at wavelengths suitable for exciting the fluorescent dye, monitoring the article for emission of second radiation by the fluorescent dye at a wavelength different from the first radiation, and generating a signal representing contamination in the event of detecting the second radiation. In one example, measures such as low-affinity coatings may be applied to the reticle to reduce affinity for the dye molecules, while the dye molecules will bind by physical or chemical adsorption to the contaminant particles. Dyes may be selected to have fluorescence behavior enhanced by hydrophobicity or hydrophilicity, and contaminant surfaces treated by buffer coatings accordingly. | 07-19-2012 |
20120267550 | THERMAL CONDITIONING SYSTEM FOR THERMAL CONDITIONING A PART OF A LITHOGRAPHIC APPARATUS AND A THERMAL CONDITIONING METHOD - A conditioning system for conditioning a part of a lithographic apparatus, includes an evaporator positioned in thermal contact with the part for extracting heat from the part by evaporation of a fluid inside the evaporator; a condenser for removing heat from the fluid inside the condenser; fluid lines arranged between the evaporator and the condenser to form a fluid circuit; a pump arranged in the circuit to circulate the fluid in the circuit; an accumulator to hold fluid, wherein the accumulator is in fluid communication with the circuit and comprises a heat exchanger to transfer heat from or to fluid inside the accumulator; a temperature sensor to provide a signal representative of the fluid temperature; and a controller to maintain a substantially constant temperature of the fluid inside the circuit by regulating the amount of heat transferred by the heat exchanger based on the signal. | 10-25-2012 |
20120312501 | METHOD AND APPARATUS FOR TREATMENT OF SELF-ASSEMBLABLE POLYMER LAYERS FOR USE IN LITHOGRAPHY - Treatment of a layer comprising self-assemblable polymer at a surface of a substrate is disclosed. In an embodiment, the treatment includes arranging a zone of temperature change to sweep across the layer, wherein a temperature of the layer within the zone differs from an initial temperature of the layer prior to passage of the zone. | 12-13-2012 |
20120327381 | Radiation Source, Lithographic Apparatus and Device Manufacturing Method - A radiation source for generating extreme ultraviolet radiation for a lithographic apparatus has a debris mitigation device comprising a nozzle arranged at or near an intermediate focus (IF) of the beam of radiation. The nozzle serves to direct a flow of gas ( | 12-27-2012 |
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 |
20130015373 | EUV Radiation Source and EUV Radiation Generation Method - An EUV radiation source comprising a fuel supply ( | 01-17-2013 |
20130038926 | 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 a material having a bulk reflectance of substantially greater than or equal to 70% at the first wavelength of radiation. The material has a melting point above 1000° C. | 02-14-2013 |
20130070218 | SYSTEM FOR REMOVING CONTAMINANT PARTICLES, LITHOGRAPHIC APPARATUS, METHOD FOR REMOVING CONTAMINANT PARTICLES AND METHOD FOR MANUFACTURING A DEVICE - A system for removing contaminant particles from the path of the beam of EUV radiation is provided in which at least a first AC voltage is provided to a pair of electrodes on opposite sides of the path of the beam of EUV radiation as a first stage of a regime of voltages and, as a second stage of the regime of voltages, a DC voltage is provided to the electrodes. | 03-21-2013 |
20130077064 | ARRANGEMENT FOR USE IN A PROJECTION EXPOSURE TOOL FOR MICROLITHOGRAPHY HAVING A REFLECTIVE OPTICAL ELEMENT - An arrangement for use in a projection exposure tool ( | 03-28-2013 |
20130088699 | LITHOGRAPHIC APPARATUS AND METHOD - A lithographic apparatus includes a radiation source configured to produce a radiation beam, and a support configured to support a patterning device. The patterning device is configured to impart the radiation beam with a pattern to form a patterned radiation beam. A chamber is located between the radiation source and patterning device. The chamber contains at least one optical component configured to reflect the radiation beam, and is configured to permit radiation from the radiation source to pass therethrough. A membrane is configured to permit the passage of the radiation beam, and to prevent the passage of contamination particles through the membrane. A particle trapping structure is configured to permit gas to flow along an indirect path from inside the chamber to outside the chamber. The indirect path is configured to substantially prevent the passage of contamination particles from inside the chamber to outside the chamber. | 04-11-2013 |
20130114059 | Components for EUV Lithographic Apparatus, EUV Lithographic Apparatus Including Such Components and Method for Manufacturing Such Components - A metal component ( | 05-09-2013 |
20130120725 | IMPRINT LITHOGRAPHY METHOD AND IMPRINTABLE MEDIUM - An imprint lithography method is disclosed for reducing a difference between an intended topography and an actual topography arising from a part of a patterned layer of fixed imprintable medium. The method involves imprinting an imprint lithography template into a layer of flowable imprintable medium to form a patterned layer in the imprintable medium, and fixing the imprintable medium to form a patterned layer of fixed imprintable medium. Local excitation is applied to the part of the patterned layer to adjust a chemical reaction in the part of the patterned layer to reduce the difference between the intended topography and the actual topography arising from the part of the fixed patterned layer of imprintable medium when this is subsequently used as a resist for patterning the substrate. An imprint medium suitable for imprint lithography with the method is also disclosed. | 05-16-2013 |
20130161542 | RADIATION SOURCE WITH CLEANING APPARATUS - A radiation source includes an uncapped Mo/Si multilayer mirror, and a cleaning apparatus configured to remove a deposition comprising Sn on the uncapped Mo/Si multilayer mirror. The cleaning apparatus is configured to provide a gas comprising one or more of H | 06-27-2013 |
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 |
20140002805 | Electrostatic Clamp Apparatus And Lithographic Apparatus | 01-02-2014 |
20140055764 | LITHOGRAPHIC APPARATUS, PROGRAMMABLE PATTERNING DEVICE AND LITHOGRAPHIC METHOD - In an embodiment, a lithographic apparatus is disclosed that includes a modulator configured to expose an exposure area of the substrate to a plurality of beams modulated according to a desired pattern and a projection system configured to project the modulated beams onto the substrate. The modulator may be moveable with respect the exposure area and/or the projection system may have an array of lenses to receive the plurality of beams, the array of lenses moveable with respect to the exposure area. | 02-27-2014 |
20140071421 | LITHOGRAPHIC APPARATUS, PROGRAMMABLE PATTERNING DEVICE AND LITHOGRAPHIC METHOD - In an embodiment, a lithographic apparatus is disclosed that includes a modulator configured to expose an exposure area of the substrate to a plurality of beams modulated according to a desired pattern and a projection system configured to project the modulated beams onto the substrate. The modulator includes a deflector to displace the plurality of beams with respect to an exposure area. | 03-13-2014 |
20140078486 | Grazing Incidence Reflectors, Lithographic Apparatus, Methods for Manufacturing a Grazing Incidence Reflector and Methods for Manufacturing a Device - A grazing incidence reflector ( | 03-20-2014 |
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 |
20140146297 | Methods and Apparatus for Inspection of Articles, EUV Lithography Reticles, Lithography Apparatus and Method of Manufacturing Devices - An EUV lithography reticle is inspected to detect contaminant particles. The inspection apparatus comprises illumination optics with primary radiation. An imaging optical system with plural branches is arranged to form and detect a plurality of images, each branch having an image sensor and forming its image with a different portion of radiation received from the illuminated article. A processor combines information from the detected images to report on the presence and location of contaminant particles. In one or more branches the primary radiation is filtered out, so that the detected image is formed using only secondary radiation emitted by contaminant material in response to the primary radiation. In a dark field imaging branch using the scattered primary radiation, a spatial filter blocks spatial frequency components associated with periodic features of the article under inspection, to allow detection of particles which cannot be detected by secondary radiation. | 05-29-2014 |
20140160452 | LITHOGRAPHIC APPARATUS, PROGRAMMABLE PATTERNING DEVICE AND LITHOGRAPHIC METHOD - A lithographic apparatus is disclosed that includes a modulator to modulate a plurality of beams according to a desired pattern and a donor structure on to which the modulated beams impinge. The donor structure is configured such that the impinging modulated beams cause a donor material to be transferred from the donor structure to the substrate. | 06-12-2014 |
20140160455 | PELLICLE FOR RETICLE AND MULTILAYER MIRROR - A pellicle that includes graphene is constructed and arranged for an EUV reticle. A multilayer mirror includes graphene as an outermost layer. | 06-12-2014 |
20140253894 | Radiation Source - A radiation source having a fuel stream generator ( | 09-11-2014 |
20140340663 | Apparatus for Monitoring a Lithographic Patterning Device - A lithographic patterning device deformation monitoring apparatus ( | 11-20-2014 |
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 |
20150034594 | METHODS OF PROVIDING PATTERNED TEMPLATES FOR SELF-ASSEMBLABLE BLOCK COPOLYMERS FOR USE IN DEVICE LITHOGRAPHY - A method is disclosed to form a patterned template on a substrate, to direct orientation of a self-assemblable block copolymer. The method involves providing a resist layer of a positive tone resist on the substrate and overexposing the resist with actinic (e.g. UV) radiation by photolithography to expose a continuous region of the resist layer with a sub-resolution unexposed resist portion at the interface between the resist and the substrate. The resist portion remaining at the interface, after removal of the exposed region, provides a basis for a chemical epitaxy template. The method may allow for simple, direct photolithography to form a patterned chemical epitaxy template and optionally include an accurately co-aligned graphoepitaxy feature and/or a substrate alignment feature. | 02-05-2015 |
20150050599 | METHODS OF PROVIDING PATTERNED EPITAXY TEMPLATES FOR SELF-ASSEMBLABLE BLOCK COPOLYMERS FOR USE IN DEVICE LITHOGRAPHY - A method is disclosed to form a patterned epitaxy template, on a substrate, to direct self-assembly of block copolymer for device lithography. A resist layer on a substrate is selectively exposed with actinic (e.g. UV or DUV) radiation by photolithography to provide exposed portions in a regular lattice pattern of touching or overlapping shapes arranged to leave unexposed resist portions between the shapes. Exposed or unexposed resist is removed with remaining resist portions providing the basis for a patterned epitaxy template for the orientation of the self-assemblable block copolymer as a hexagonal or square array. The method allows for simple, direct UV lithography to form patterned epitaxy templates with sub-resolution features. | 02-19-2015 |