Abstract: Techniques herein include systems and methods that provide a spatially-controlled or pixel-based projection of light onto a substrate to tune various substrate properties. A given pixel-based image projected on to a substrate surface can be based on a substrate signature. The substrate signature can spatially represent non-uniformities across the surface of the substrate. Such non-uniformities can include energy, heat, critical dimensions, photolithographic exposure dosages, etc. Such pixel-based light projection can be used to tune various properties of substrates, including tuning of critical dimensions, heating uniformity, evaporative cooling, and generation of photo-sensitive agents. Combining such pixel-based light projection with photolithographic patterning processes and/or heating processes improves processing uniformity and decreases defectivity. Embodiments can include using a digital light processing (DLP) chip, grating light valve (GLV), or other grid-based micro projection technology.

Abstract: An exposure apparatus includes a measuring member disposed in a substrate stage for holding the substrate, at a side of a surface holding the substrate of a substrate stage, an auxiliary member disposed at a side of the surface of the substrate stage, with a gap with the measuring member, and a sealing member contacting a surface of the auxiliary member, disposed to cover the gap, and for suppressing penetration of the liquid locating on a surface of the measuring member, or the surface of the auxiliary member into the gap, and wherein the sealing member has a shape forming a space where a part of the surface of the measuring member contacts gas, while the liquid is on the surface of the measuring member and the liquid contacts an edge of the sealing member.

Abstract: A lithographic projection apparatus includes a substrate table by which a substrate is held, a projection system via which a patterned beam is projected onto the substrate to expose the substrate through liquid, and a liquid supply system. The liquid supply system includes a supply flow path, and supplies the liquid via the supply flow path during the exposure. The liquid supply system also includes a device by which the supply flow path is connected with a vacuum system to prevent liquid in the supply flow path from leaking.

Abstract: Methods and apparatus for cooling mirrors in an extreme ultraviolet (EUV) lithography system using a liquid metal interface are described. According to one aspect of the present invention, an apparatus which may be used in an EUV lithography system includes a heat exchanger, a mirror assembly, and a first liquid metal interface. The heat exchanger including at least a first surface. The mirror assembly includes a first mirror block having a first mirrored surface, as well as at least a first well. Finally, the first liquid metal interface includes liquid metal which is contained in the first well. The first surface is in contact with the liquid metal such that heat may be transferred from the first mirror block to the heat exchanger.

Abstract: Methods and apparatus for cooling mirrors in an extreme ultraviolet (EUV) lithography system using a liquid metal interface are described. According to one aspect of the present invention, an apparatus includes a heat exchanger, a mirror assembly, and a first liquid metal interface. The heat exchanger includes at least one well defined therein. The mirror assembly includes a mirror block having a mirrored surface. The mirror assembly also has at least one surface. Finally, the first liquid metal interface includes liquid metal which is contained in the first well. The at least one surface is in contact with the liquid metal to transfer heat from the mirror block to the heat exchanger.

Abstract: An exposure apparatus exposes a substrate via a projection optical system and a liquid. The exposure apparatus includes a stage that is movable below the projection optical system while holding the substrate and a detector that is capable of detecting a liquid adhered to a rear surface of the substrate. As an alternative, or in addition, the apparatus can include a detector that is capable of detecting a liquid adhered to an optical member disposed at the stage.

Abstract: An exposure apparatus exposes a substrate with exposure light via a liquid. The exposure apparatus includes an optical system including an emission surface from which the exposure light is emitted; a liquid supply port that supplies the liquid in order to fill an optical path of the exposure light emitted from the emission surface with the liquid; and a fluid supply port that supplies a fluid including a material capable of changing the specific resistance of the liquid to at least a part of a space around a liquid immersion space that is formed by the liquid.

Abstract: An optical arrangement, in particular in a projection exposure apparatus for EUV lithography. In an aspect an optical arrangement has a housing (100, 200, 550, 780) in which at least one optical element is arranged, and at least one subhousing (140, 240, 560, 790, 811, 823, 824, 831, 841) which is arranged within the housing and which surrounds at least one beam incident on the optical element in operation of the optical system, wherein the internal space of the subhousing is in communication with the external space of the subhousing by way of at least one opening, wherein provided in the region of the opening is at least one flow guide portion which deflects a flushing gas flow passing through the opening from the internal space to the external space of the subhousing, at least once in its direction.

Abstract: A mask inspection system with Fourier filtering and image compare can include a first detector, a dynamic Fourier filter, a controller, and a second detector. The first detector can be located at a Fourier plane of the inspection system and can detect a first portion of patterned light produced by an area of a mask. The dynamic Fourier filter can be controlled by the controller based on the detected first portion of the patterned light. The second detector can detect a second portion of the patterned light produced by the section of the mask and transmitted through the dynamic Fourier filter. Further, the mask inspection system can include a data analysis device to compare the second portion of patterned light with another patterned light. Consequently, the mask inspection system is able to detect any possible defects on the area of the mask more accurately and with higher resolution.

Abstract: Disclosed is a contamination trap arrangement (300) configured to trap debris particles that are generated with the formation of a plasma within a radiation source configured to generate extreme ultraviolet radiation. The contamination trap comprises a vane structure (310) for trapping the debris particles; a heating arrangement (330) for heating the vane structure, the heating arrangement being in thermal communication with the vane structure; a cooling arrangement (350) for transporting heat generated as a result of the plasma formation, away from the vane structure, and a gap (370) between the heating arrangement and the cooling arrangement. The cooling arrangement is in thermal communication with the vane structure via the heating arrangement and the gap and the contamination trap also comprises a heat transfer adjustment arrangement operable to adjust the heat transfer characteristics of a fluid inside of the gap by providing for controllable relative movement between the surfaces defining the gap.

Abstract: An optical system has a housing with a mount and an opening to a receiving region, the receiving region being located within the housing and including the mount. At least one optical element is inserted into and removed from the receiving region through the opening, and at least one gas supply device provides a flow of gas in the receiving region. An associated method of inserting or removing an optical element into or from a receiving region in a housing is also disclosed.

Abstract: A holding device for an optical element in an objective has a mount that is connected to the objective, on the one hand, and at least indirectly to the optical element, on the other hand. Arranged between the mount and the optical element is a reinforcing element whose coefficient of thermal expansion corresponds substantially to the coefficient of thermal expansion of the optical element.

Abstract: A lithographic system includes an immersion type lithographic apparatus, which includes a support constructed and arranged to support a substrate, a projection system constructed and arranged to project a patterned beam of radiation onto a target portion of the substrate, a liquid confinement structure configured to at least partially fill a space between the projection system and at least one of the substrate and support with an immersion liquid, a liquid supply system arranged to provide the immersion liquid to the liquid confinement structure, and a cleaning liquid supply system arranged to provide a cleaning liquid to a surface of the lithographic apparatus that comes into contact with the immersion liquid. The system includes a switch to provide the cleaning liquid directly to the liquid confinement structure and to provide the immersion liquid indirectly to the liquid confinement structure via a liquid purification system.

Abstract: An immersion lithographic apparatus is disclosed that includes a fluid supply system configured to supply a fluid, the fluid supply system having a chamber with a plurality of inlet holes in a first side wall and a plurality of outlet holes in a second side wall, the first side wall facing the second side wall, wherein the inlet holes direct fluid entering the chamber in a direction towards areas of the second side wall between the plurality of outlet holes.

Abstract: A foreign substance detection method includes: judging the presence/absence of a foreign substance by measuring a surface condition of a substrate; measuring a surface condition of a second substrate different from the substrate upon replacing the substrate on the chuck with the second substrate, when it is judged in the judging that a foreign substance exists; and determining whether an adhering location of the foreign substance determined to exist in the judging is the substrate, based on a measurement result obtained in the measurement.

Abstract: An object table to support an object, the object table having a support body, an object holder to hold an object, an opening adjacent an edge of the object holder, and a channel in fluid communication with the opening via a passageway, wherein the channel is defined by a first material which is different to a second material defining the passageway.

Abstract: The disclosure relates to a projection exposure apparatus for semiconductor lithography which includes an actuator system to mechanically actuate a component of the projection exposure apparatus. The actuator system has at least one mechanism to reduce and/or dampen the heat input into the component that is due to heat arising during the operation of the actuator system.

Abstract: The invention relates to a charged particle lithography system for exposing a target. The system includes a charged particle beam generator for generating a charged particle beam; an aperture array (6) for forming a plurality of beamlets from the charged particle beam; and a beamlet projector (12) for projecting the beamlets onto a surface of the target. The charged particle beam generator includes a charged particle source (3) for generating a diverging charged particle beam; a collimator system (5a,5b,5c,5d; 72;300) for refracting the diverging charged particle beam; and a cooling arrangement (203) for removing heat from the collimator system, the cooling arrangement comprising a body surrounding at least a portion of the collimator system.

Abstract: A liquid immersion member is used in a liquid immersion exposure apparatus, and forms a liquid immersion space above an object which is movable below the optical member. The liquid immersion member includes a first member that is disposed at at least a portion of surrounding of the optical member, and a second member that is disposed at at least a portion of surrounding of an optical path of the exposure light and is relatively movable with respect to the first member. The second member includes a second upper surface that is opposite to a first lower surface of the first member via a gap, a second lower surface that is capable of being opposite to the object, and a fluid recovery part that is disposed at at least a portion of surrounding of the second lower surface.

Abstract: A method is provided for purifying a resin for photolithography wherein, from an insufficiently purified resin (also referred to as “crude resin”), low molecular weight impurities such as an unreacted monomer and a polymerization initiator, which cause a development defect of a resist pattern or deterioration of the storage stability of the resin for photolithography can be removed more effectively. The method for purifying a resin for photolithography includes an operation (a) wherein a slurry in which a resin is dispersed in a solution containing a good solvent and a poor solvent is stirred, and then an operation (b) wherein, to said slurry, a poor solvent is added to lower the ratio of the good solvent to the poor solvent, and then, the resin is separated from the solution.

Abstract: In a lithographic projection apparatus, a liquid supply system maintains liquid in a space between the projection system and the substrate. The liquid supply system may further include a de-mineralizing unit, a distillation unit, a de-hydrocarbonating unit, a UV radiation source, and/or a filter configured to purify the liquid. A gas content reduction device may be provided to reduce a gas content of the liquid. A chemical may be added to the liquid using an adding device to inhibit lifeform growth and components of the liquid supply system may be made of a material which is non-transparent to visible light such that growth of lifeforms may be reduced.

Abstract: An exposure apparatus exposes a substrate with illumination light via a projection optical system and liquid, and includes a controller that controls movement of first and second movable members each of which can hold a substrate. The controller executes a relative movement between the first and second movable members such that, while one of the movable members is arranged opposed to the projection optical system, the other of the movable members comes close to the one of the movable members, and so as to move the close first and second movable members relative to the projection optical system such that the other of the movable members is arranged opposed to the projection optical system in place of the one of the movable members while substantially maintaining a liquid immersion region under the projection optical system.

Abstract: An adjusting method that adjusts an immersion exposure apparatus that comprises a first holder, which holds a substrate, and a second holder, which holds the substrate before the substrate is held by the first holder, and that exposes the substrate, which is held by the first holder, through a liquid. The adjusting method comprises: holding a thermometer with the first holder; holding the thermometer with the second holder; and adjusting the temperature of at least one of the first holder and the second holder based on the detection result of the thermometer held by the first holder and the detection result of the thermometer held by the second holder.

Abstract: In an immersion lithography apparatus, the immersion liquid is supplied from a tank via a flow restrictor. The liquid held in the tank is maintained at a substantially constant height above the flow restrictor to ensure a constant flow of liquid.

Abstract: A lithographic apparatus with a cover plate formed separately from a substrate table and means for stabilizing a temperature of the substrate table by controlling the temperature of the cover plate is disclosed. A lithographic apparatus with thermal insulation provided between a cover plate and a substrate table so that the cover plate acts as a thermal shield for the substrate table is disclosed. A lithographic apparatus comprising means to determine a substrate table distortion and improve position control of a substrate by reference to the substrate table distortion is disclosed.

Abstract: A method and apparatus for cleaning the inside of an immersion lithographic apparatus is disclosed. In particular, a liquid supply system of the lithographic apparatus may be used to introduce a cleaning fluid into a space between the projection system and the substrate table of the lithographic apparatus. Additionally or alternatively, a cleaning device may be provided on the substrate table and an ultrasonic emitter may be provided to create an ultrasonic cleaning liquid.

Abstract: An exposure apparatus (EX) is an apparatus which exposes a substrate (P) by irradiating exposure light (EL) onto the substrate (P) via a projection optical system (PL) and a liquid (1). The exposure apparatus (EX) has a substrate table (PT) for holding the substrate (P), and a plate member (30) having a liquid repellent flat surface (30A) is replaceably provided to the substrate table (PT) to prevent the liquid from remaining, maintaining excellent exposure accuracy.

Abstract: A lithographic apparatus that includes a reflector configured to reflect a cleaning beam of radiation projected through a projection system onto an underside of a liquid retrieval system. The construction of the reflector is also described as is a method for irradiating the underside of a liquid supply system for use in cleaning.

Abstract: An exposure apparatus exposes a substrate with an energy beam via a projection system and liquid and an immersion member forms an immersion area under the projection system with the liquid. A controller controls a stage system having first and second substrate holding members that hold first and second substrates, (i) to execute a relative movement between the first and second substrate holding members such that, while one of the substrate holding members is arranged opposed to the projection system, the other of the substrate holding members comes close to the one substrate holding members, and (ii) to move the close substrate holding members relative to the immersion member below the projection system such that the other of the substrate holding members is arranged opposite to the projection system in place of the one substrate holding members while substantially maintaining the immersion area under the projection system.

Abstract: An exposure apparatus exposes a substrate by projecting a pattern image onto the substrate through a liquid. The exposure apparatus includes a projection optical system by which the pattern image is projected onto the substrate, and a movable member which is movable relative to the projection optical system. A liquid-repellent member, at least a part of a surface of which is liquid-repellent, is provided detachably on the movable member, the liquid-repellent member being different from the substrate.

Abstract: A method for cleaning an edge of a semiconductor wafer in a wafer edge exposure (WEE) apparatus includes positioning the semiconductor wafer having a resist thereon in a wafer positioning device. A brush bar is positioned adjacent a backside of the semiconductor wafer in the wafer positioning device. The brush bar engages and cleans a backside of the semiconductor wafer while the semiconductor wafer is disposed in the wafer positioning device. A height of an edge of the semiconductor wafer is detected. The focusing position of exposure light radiated toward the edge is controlled on the basis of a height of the edge. Exposure light is radiated towards an edge after the cleaning step.

Abstract: A lithographic apparatus is disclosed including a liquid supply system configured to at least partly fill a space between the projection system and the substrate with a liquid, an outlet configured to remove a mixture of liquid and gas passing through a gap between a liquid confinement structure of the liquid supply system and the substrate, and an evacuation system configured to draw the mixture through the outlet, the evacuation system having a separator tank arranged to separate liquid from gas in the mixture and a separator tank pressure controller, connected to a non-liquid-filled region of the separator tank, configured to maintain a stable pressure within the non-liquid-filled region.

Abstract: An optical imaging device, in particular for use in microlithography, includes a mask device for receiving a mask having a projection pattern, a projection device with an optical element group, a substrate device for receiving a substrate and an immersion zone. The optical element group is adapted to project the projection pattern onto the substrate and includes a plurality of optical elements with an immersion element to which the substrate is at least temporarily located adjacent to during operation. During operation, the immersion zone is located between the immersion element and the substrate and is at least temporarily filled with an immersion medium. A thermal attenuation device is provided, the thermal attenuation device being adapted to reduce fluctuations within the temperature distribution of the immersion element induced by the immersion medium.

Abstract: A scanner routing method for particle removal is disclosed. A dummy wafer coated with a viscosity builder is provided. The dummy wafer is moved, shot by shot, with an immersion scanner. The said moving includes moving edge shots in a direction from the outside of the dummy wafer toward the inside of the same. The scanner routing method of the invention is beneficial to remove unnecessary particles or chemicals in the immersion liquid and therefore improve the performance of the product wafer which is subsequently run after the dummy wafer.

Abstract: A lithographic apparatus comprising a projection system, and a liquid confinement structure configured to at least partly confine immersion liquid to an immersion space defined by the projection system, the liquid confinement structure and a substrate and/or substrate table is disclosed wherein a measure is taken to reduce the effect of droplets and/or a liquid film on the last element of the projection system.

Abstract: A liquid recovery system is used by an immersion exposure apparatus. The liquid recovery system comprises: a plate that has a first surface and a second surface on the side opposite the first surface; and a liquid recovery part, at least part of which opposes the second surface with a first gap interposed therebetween. The liquid recovery system recovers the liquid on a movable object that opposes the first surface of the plate via the liquid recovery part.

Abstract: The present invention relates to a clamping device configured to clamp an object (20, 120) on a support (1, 101). The clamping device comprises: a first device configured to force the object and the support away from each other using a first force, and a second device configured to force the object and the support towards each other using a second force. The first device and second device are configured to simultaneously exert the first force and the second force respectively to shape the object to a desired shape before completing the clamping of the object on the support.

Abstract: A table for a lithographic apparatus, the table having a catchment opening formed in an upper surface of the table, the catchment opening in fluid communication through the table with the environment of the table at a drain opening in a surface of the table other than the upper surface.

Abstract: An immersion lithographic projection apparatus having a megasonic transducer configured to clean a surface and a method of using megasonic waves through a liquid to clean a surface of an immersion lithographic projection apparatus are disclosed. A flow, desirably a radial flow, is induced in the liquid.

Abstract: An immersion lithographic apparatus is provided having a table configured to support a substrate; a sensor or target for a sensor is provided on a surface of the table and a cover is provided extending from an edge of the table; in addition, a liquid displacement device is provided including a gas outlet configured to direct a localized gas flow towards the sensor or target so as to displace liquid from the sensor or target over the cover and off the table.

Abstract: The disclosure relates to an optical assembly for a projection exposure apparatus for semiconductor lithography. The optical assembly includes at least one optical element and a mounting body for mechanically fixing the element in a supporting structure. The optical assembly also includes at least one cooling body for dissipating heat from the element. The mounting body and the cooling body are separate from one another. The optical element is connected to the cooling body via at least one heat-conducting element. The disclosure also relates to a projection exposure apparatus including an optical assembly according to the disclosure.

Abstract: An electrostatic clamp (21) configured to hold an object, the electrostatic clamp comprising an electrode (24), a resistive portion (23) formed from a resistive material located on the electrode, and a dielectric portion (22) formed from a dielectric material located on the resistive portion.

Abstract: 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.

Abstract: An EUV collector for collecting and transmitting radiation from an EUV radiation source includes at least one collector mirror for reflecting an emission of the EUV radiation source, which is rotationally symmetric with respect to a central axis. The EUV collector also includes a cooling device for cooling the at least one collector mirror. The cooling device has at least one cooling element, which has a course with respect to the collector mirror, in each case, such that the projection of the course into a plane perpendicular to the central axis has a main direction, which encloses an angle of at most 20° with respect to a predetermined preferred direction. The collector transmits improved quality radiation to illuminate an object field.

Abstract: An exposure apparatus exposes a substrate by radiating a light onto the substrate through an optical assembly and a liquid provided on the substrate. The exposure apparatus includes a stage assembly which is movable relative to the optical assembly, the stage assembly including a support which supports the substrate, a first subregion which substantially encircles the support, and a second subregion which substantially encircles the first subregion. The first subregion includes a first surface having a first characteristic and the second subregion includes a second surface having a second characteristic which is different from the first characteristic.

Abstract: A lithographic apparatus including a first body including a heat source, a second body and a heater device is presented. The second body has a facing surface facing the first body via a gap between the first and second bodies. The heat source is for providing a heat flux to the second body via the gap. The heater device is attached to the facing surface. The heater device is configured to provide a further heat flux to the second body.

Abstract: A device serves for controlling temperature of an optical element provided in vacuum atmosphere. The device has a cooling apparatus having a radiational cooling part, arranged apart from the optical element, for cooling the optical element by radiation heat transfer. A controller serves for controlling temperature of the radiational cooling part. Further, the device comprises a heating part for heating the optical element. The heating part is connected to the controller for controlling the temperature of the heating part. The resulting device for controlling temperature in particular can be used with an optical element in a EUV microlithography tool leading to a stable performance of its optics.

Abstract: An exposure apparatus and method exposes a substrate via a projection optical system and a liquid supplied to an immersion area below the projection optical system. First and second movable members move below the projection optical system. The first movable member has a mount area that mounts a substrate located in a hole of an upper surface of the first movable member. The upper surface outside the hole can maintain at least a part of the immersion area outside the substrate mounted in the hole. A drive system drives the first and second movable members to move the first and second movable members below the projection optical system relative to the liquid immersion region to replace one member positioned below the projection optical system with the other member such that the liquid immersion area is maintained below the projection optical system.

Abstract: Disclosed is a processing liquid supplying apparatus. The apparatus includes: a processing liquid supply source configured to supply a processing liquid for processing a substrate to be processed; an ejection unit configured to eject the processing liquid to the substrate to be processed; a filter device configured to remove foreign matters in the processing liquid; a supply pump and an ejection pump which are provided in the supply path at a primary side and a secondary side of the filter device, respectively; and a control unit configured to output a control signal to decompress and degas the processing liquid supplied from the processing liquid supply source by using one of the supply pump and the ejection pump, and subsequently, pass the degassed processing liquid through the filter device beginning from the primary side to the secondary side of the filter device by using the supply pump and the ejection pump.

Abstract: A substrate holder for use in a lithographic apparatus. The substrate holder comprises a main body, a plurality of burls and a heater and/or a temperature sensor. The main body has a surface. The plurality of burls project from the surface and have end surfaces to support a substrate. The heater and/or temperature sensor is provided on the main body surface. The substrate holder is configured such that when a substrate is supported on the end surfaces, a thermal conductance between the heater and/or temperature sensor and the substrate is greater than a thermal conductance between the heater and/or temperature sensor and the main body surface.