Abstract: A flow through Micro-Electromechanical Systems (MEMS) package and methods of operating a MEMS packaged using the same are provided. Generally, the package includes a cavity in which the MEMS is enclosed, an inlet through which a fluid is introduced to the cavity during operation of the MEMS and an outlet through which the fluid is removed during operation of the MEMS. In certain embodiments, the fluid includes an gas, such as nitrogen, and the inlet and outlet are adapted to provide a flow of gas of from 0.01 Standard Cubic Centimeters per Minute (sccm) to 10000 sccm during operation of the MEMS. The package and method are particularly useful in packaging spatial light modulators including a reflective surface and adapted to reflect and modulate a light beam incident thereon. Other embodiments are also provided.

Abstract: A lithographic apparatus including a fluid handling structure configured to contain immersion fluid in a space adjacent to an upper surface of the substrate table and/or a substrate located in a recess of the substrate table, a cover having a planar main body that, in use, extends around a substrate from the upper surface to a peripheral section of an upper major face of the substrate in order to cover a gap between an edge of the recess and an edge of the substrate, and an immersion fluid film disruptor, configured to disrupt the formation of a film of immersion fluid between an edge of the cover and immersion fluid contained by the fluid handling structure during movement of the substrate table relative to the fluid handling structure.

Abstract: Immersion lithography system and method using direction-controlling fluid inlets are described. According to one embodiment of the present disclosure, an immersion lithography apparatus includes a lens assembly having an imaging lens disposed therein and a wafer stage configured to retain a wafer beneath the lens assembly. The apparatus also includes a plurality of direction-controlling fluid inlets disposed adjacent to the lens assembly, each direction-controlling fluid inlet in the plurality of direction-controlling fluid inlets being configured to direct a flow of fluid beneath the lens assembly and being independently controllable with respect to the other fluid inlets in the plurality of direction-controlling fluid inlets.

Abstract: A lithographic projection apparatus includes a substrate table configured to hold a substrate, a projection system arranged to project a patterned beam of radiation onto the substrate, a liquid supply system configured to supply liquid to a space between the projection system and the substrate, and a residual liquid detector configured to detect liquid remaining on the substrate and/or the substrate table after an exposure is completed.

Abstract: The invention relates to a lithography system, for example for projecting an image or an image pattern on to a target (1) such as a wafer, said target being included in said system by means of a target table (2), clamping means being present for clamping said target on said table. Said clamping means comprises a layer or stationary liquid (3), included at such thickness between target and target table that, provided the material of the liquid (C) and of the respective contacting faces (A, B) of the target (1) and target table (2), a pressure drop (PCap) arises.

Abstract: A system for removing debris from a surface of a photolithographic mask is provided. The system includes an atomic force microscope with a tip supported by a cantilever. The tip includes a surface and a nanometer-scaled coating disposed thereon. The coating has a surface energy lower than the surface energy of the photolithographic mask.

Abstract: An optical assembly including: a beam generating system generating radiation (6) at an operating wavelength, an optical element (13, 14) arranged in a residual gas atmosphere (16) and subjected to the radiation, which induces a degradation of a surface of the optical element, and a feed device feeding at least one gaseous constituent into the residual gas atmosphere, to suppress the degradation of the surface. Either a beam diameter (d) of the radiation at the surface of the optical element, lies above a threshold value (dc), thereby suppressing the degradation by the gaseous constituent, or, if the beam diameter (d) at the surface (14a) of the optical element (14) lies below the threshold value (dc) so that the effectiveness of the suppression of the degradation is reduced, at least one further device (25, 27) enhancing suppression of the degradation of the surface (14a) is assigned to the optical element (14).

Abstract: A lithographic apparatus includes an illumination system constructed and arranged to condition a beam of radiation, and a support structure constructed and arranged to support a patterning device. The patterning device is configured to impart the beam of radiation with a pattern in its cross-section. The apparatus also includes a substrate table constructed and arranged to hold a substrate. The substrate table includes a substrate support plate that is in thermal contact with a thermal conditioning plate. The apparatus further includes a projection system constructed and arranged to project the patterned beam of radiation onto a target portion of the substrate.

Abstract: An apparatus and method for cleaning a contaminated surface of a lithographic apparatus are provided. A liquid confinement structure comprises at least two openings used to supply and extract liquid to a gap below the structure. The direction of flow between the openings can be switched. Liquid may be supplied to the gap radially outward of an opening adapted for dual flow. Supply and extraction lines to respectively supply liquid to and extract liquid from the liquid confinement structure have an inner surface that is resistant to corrosion by an organic liquid. A corrosive cleaning fluid can be used to clean photo resist contamination.

Abstract: A lithographic apparatus is disclosed that includes an encoder type sensor system configured to measure a position of a substrate table of the lithographic apparatus relative to a reference structure. The encoder type sensor system includes an encoder sensor head and an encoder sensor target and the lithographic apparatus comprises a recess to accommodate the encoder sensor target.

Abstract: A cleaning of a liquid immersion exposure apparatus is performed at a different time than an exposure operation. A stage is placed under a liquid supply inlet during a cleaning operation. The cleaning operation is performed at the different time than the exposure operation in which an immersion liquid is supplied onto a substrate held on a holder of the stage. The immersion liquid is supplied from a liquid supply inlet during the cleaning operation. The immersion liquid is supplied to a portion of the stage different from a portion at which the substrate is held by the holder of the stage.

Abstract: An exposure apparatus which projects a pattern of an original onto a substrate via a liquid to expose the substrate, includes a substrate stage which holds the substrate and moves, the substrate stage including a peripheral member arranged to surround a region in which the substrate is arranged, the peripheral member having a holding surface which holds the liquid, wherein a trench which traps the liquid is formed in the peripheral member, and the trench is arranged to surround the region in which the substrate is arranged, and includes a bottom portion, an inner-side surface extending from the holding surface toward the bottom portion, and an outer-side surface, the inner-side surface having a slant which increases stepwise or continuously in a direction away from the holding surface, and the outer-side surface is provided with a spattering preventing portion which prevents spattering of the liquid trapped by the trench.

Abstract: A fluid system to provide a fluid including liquid in a part of a lithographic apparatus, the fluid system including a manifold to mix a first liquid component and a second component to form the fluid in the part of the lithographic apparatus, a controller to control a physical property of the fluid by controlling the amount of the first and/or second component used to form the fluid, and a measuring device to measure a property of the fluid and to make feedback available to the controller, wherein the controller is configured to control the physical property of the fluid based on the measured property.

Abstract: 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.

Abstract: A method for exposing a substrate includes holding the substrate on a substrate holding member, irradiating, via a liquid, a light beam to the substrate on the substrate holding member, and removing, after the exposure of the substrate via the liquid, a liquid remained on the substrate before supporting the substrate by a transferring member. The transferring member transfers the exposed substrate from the substrate holding member to outside of the substrate holding member.

Abstract: An immersion lithographic apparatus is disclosed that includes a table having a surface and a sensor, or a target for a sensor, or both, the sensor and/or target having a first area which is lyophobic to immersion liquid and a second area which is lyophilic to immersion liquid, and a liquid displacement device configured to displace liquid on the sensor and/or target, the liquid displacement device comprising a gas outlet opening configured to direct a gas flow toward the first and second areas, wherein a property of a part of the gas flow directed to the first area is different to a property of a part of the gas flow directed to the second area.

Abstract: A porous member is used in a liquid removal system of an immersion lithographic projection apparatus to smooth uneven flows. A pressure differential across the porous member may be maintained at below the bubble point of the porous member so that a single-phase liquid flow is obtained. Alternatively, the porous member may be used to reduce unevenness in a two-phase flow.

Abstract: A substrate table of an immersion lithographic apparatus is disclosed which comprises a barrier configured to collect liquid. The barrier surrounds the substrate and is spaced apart from the substrate. In this way any liquid which is spilt from the liquid supply system can be collected to reduce the risk of contamination of delicate components of the lithographic projection apparatus.

Abstract: An immersion lithography apparatus including a container, at least a liquid, a platform, a fixture, a roller, a light source, and a filter is provided. The container includes a bottom plate, a plurality of side plates, and a bearing hole penetrated through one of the side plates. The liquid is filled in the container. The platform is immersed in the liquid. The platform includes a pair of axles. The axles are parallel to the bottom plate. One of the axles passes through the bearing hole. The fixture is mounted on the platform for clamping a mask and a wafer. The roller is connected to the axle, passes through the bearing hole, and is operated to rotate the connected axle. The light source generates ultraviolet light to incident on the mask and the wafer. The filter is located between the light source and the fixture.

Abstract: A radiation source for generating EUV from a stream of molten fuel droplets by LPP (Laser Produced Plasma) or (Dual Laser Plasma) has a fuel droplet generator arranged to provide a stream of droplets of fuel and at least one laser configured to vaporize at least some of the droplets of fuel, whereby radiation is generated. The fuel droplet generator has a nozzle, a feed chamber, and a reservoir, with a pumping device arranged to supply a flow of fuel in molten state from the reservoir through the feed chamber and out of the nozzle as a stream of droplets. The feed chamber has an outer face in contact with a drive cavity filled with a liquid, and the liquid is driven to oscillate by a vibrator with the oscillation transmissible to the molten fuel in the feed chamber from the outer face of the feed chamber through the liquid.

Abstract: The upper end of a static gas bearing member of a wafer side seal unit is connected to an edge section on the outgoing side of an exposure beam of a chamber in an air tight state via bellows, and the lower end surface is in a state forming a predetermined clearance with a wafer and a wafer holder. By this arrangement, the inside of the chamber is isolated from the outside. Accordingly, it becomes possible to maintain a vacuum environment in the periphery of the optical path of the exposure beam without arranging a vacuum chamber to house a wafer, a wafer holder, and a wafer stage, which allows the size of the entire exposure apparatus to be reduced, and also makes it easy to have access to the vicinity of the wafer stage.

Abstract: A part of exposure beam through a liquid via a projection optical system enters a light-transmitting section, enters an optical member without passing through gas, and is focused. The exposure apparatus receives the exposure light from the projection optical system to perform various measurements even if the numerical aperture of the projection optical system increases.

Abstract: A stage apparatus includes: a moving stage, which moves along a movement plane; a first moving table, which holds a specimen while being able to move with respect to the moving stage; and a second moving table, which is provided on the moving stage and, when the first moving table has moved from a first position to a second position, is positioned at the first position.

Abstract: A liquid immersion exposure apparatus includes a movable member having a substrate holder and a surface disposed adjacent to the substrate holder, the surface capable of positioning under a projection optical system. A liquid immersion system has a supply path and a recovery path. The liquid immersion system supplies the liquid to a space between the projection optical system and the surface via the supply path and recovers the supplied liquid of a liquid immersion area formed under the projection optical system via the recovery path. A controller stops a supply of the liquid to the space under the projection optical system by the liquid immersion system on receipt of a signal indicating the occurrence of an abnormality. The abnormality causes a possibility of leakage due to at least a part of the supplied liquid not being recovered via the recovery path and outflowing from the liquid immersion area.

Abstract: An immersion lithographic apparatus includes a liquid supply system member configured to contain a liquid in a space between a projection system of the lithographic apparatus and the substrate and a liquid supply system member compensator arranged to compensate an interaction between the liquid supply system member and substrate table.

Abstract: 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.

Abstract: A lithographic apparatus includes an illumination system to provide a beam of radiation, a support to support a patterning devices, the patterning devices configured to impart the beam with a pattern in its cross-section, a substrate table to hold a substrate, a projection system to project the patterned beam onto a target portion of the substrate, and a conditioning system to condition the substrate. The conditioning system conditions a non-target portion of the substrate with a conditioning fluid. A method of manufacturing a device includes conditioning a non-target portion of a substrate.

Abstract: Methods and apparatus for aligning a mirror block with a base plate to form a mirror assembly are disclosed. According to one aspect of the present invention, a method for forming a mirror assembly includes positioning a mirror block in contact with a base plate that has at least one alignment feature, and indexing a portion of an alignment tool with respect to the base plate. The method also includes applying at least a first force by moving the mirror block with respect to alignment feature. A determination is made as to when a first surface of the mirror block is substantially coplanar with a first surface of the alignment feature. The mirror block is coupled to the base plate when the first surface of the mirror block is substantially coplanar with the first surface of the alignment feature.

Abstract: An immersion type exposure apparatus comprises: an optical member from which an exposure beam is emitted; a first movable member that is movable while holding a substrate, in a predetermined region including a first region including a position facing the optical member and a second region different from the first region; a second movable member that is movable while holding the substrate independently from a first movable member, in a predetermined region including the first region and the second region; a first connection member that is releasably and alternately connected with the first movable member and the second movable member, and moves one movable member in the first region; a second connection member that is releasably and alternately connected with the first movable member and the second movable member, and moves the other movable member in the second region; and a third movable member that is provided on the first connection member and is movable to a position facing the optical member; and at leas

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: 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.

Abstract: A lithographic projection apparatus includes a substrate table to hold a substrate, a projection system to project a patterned beam of radiation onto the substrate and a liquid confinement structure to confine a liquid in a space between the projection system and the substrate, the substrate, the substrate table, or both, to form a part of a boundary of the space. In addition, a closing plate forms a part of a boundary of the space in place of the substrate, the substrate table, or both, when moved without substantially disturbing the liquid, the liquid confinement structure, or both.

Abstract: Immersion lithography aberration control systems and methods that compensate for a heating effect of exposure energy in an immersion fluid across an exposure zone are provided. An aberration control system includes actuators that adjust optical elements within the immersion lithography system and a fluid heating compensation module coupled to the actuators. The fluid heating adjustment module determines actuator commands to make aberration adjustments to optical elements within the immersion lithography system based on changes in one or more of a flow rate of the immersion liquid, an exposure dose and a reticle pattern image. In an embodiment, the aberration control system includes an interferometric sensor that pre-calibrates aberrations based on changes in operating characteristics related to the immersion fluid. Methods are provided that calibrate aberrations, determine actuator adjustments and implement actuator adjustments upon changes in operating characteristics to control aberration effects.

Abstract: An exposure apparatus includes a projection optical system by which an image of a pattern is projected onto a substrate to expose the substrate. The apparatus also includes a liquid supply system having a supply port from which a liquid is supplied to a space under the projection optical system. A supply amount of the liquid per unit time from the supply port is changed without stopping the liquid supply from the supply port, and the supply amount of the liquid per unit time from the supply port in a first operation is different from the supply amount of the liquid per unit time from the supply port in a second operation that is different from the first operation.

Abstract: A lithographic apparatus includes a radiation system for providing a beam of radiation from radiation emitted by a radiation source. The radiation system includes a contaminant trap for trapping material emanating from the radiation source. The rotation contaminant trap includes a multiple number of elements extending in a radial direction from a common rotation trap axis and being arranged for allowing contaminant material emanating from the radiation source to deposit during propagation of the radiation beam in the radiation system. The radiation system further includes a contaminant catch for receiving contaminant material particles from the rotation trap elements, the contaminant catch having a constitution, during operation of the radiation, for retaining said contaminant material particles.

Abstract: A liquid immersion photolithography system includes an exposure system that exposes a substrate with electromagnetic radiation and includes a projection optical system that focuses the electromagnetic radiation on the substrate. A liquid supply system provides liquid flow between the projection optical system and the substrate. The liquid supply system including a plurality of inlets to supply the liquid to the space, the inlets located between the table and a surface of the optical element, the surface arranged to be in contact with the liquid.

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 humid gas space is defined between the projection system, the liquid confinement structure and immersion liquid in the immersion space, the humid gas space being configured to contain humid gas.

Abstract: A lithographic apparatus includes a substrate table constructed to hold a substrate, a projection system configured to project a patterned radiation beam through an opening and onto a target portion of the substrate, and a conduit having an outlet in the opening. The conduit is configured to deliver gas to the opening. The lithographic apparatus further includes a cooling apparatus controlled by a control system. The cooling apparatus is configured to cool the gas such that gas which travels from the opening to the substrate has a predetermined temperature when the gas is incident upon the substrate.

Abstract: An immersion lithography apparatus and method places an object for a cleanup process on a holder of a movable stage of the immersion lithography apparatus, a wafer being held on the holder of the stage and exposed during a liquid immersion lithography process. During the liquid immersion lithography process, device pattern projection is performed and a device pattern image is projected onto the wafer held on the holder to fabricate semiconductor devices. During the cleanup process, a liquid is supplied via a supply port from above the stage holding the object on the holder. During the cleanup process, the object is held on the holder in place of the wafer and the object is used without performing device pattern projection.

Abstract: An exposure apparatus includes an immersion space forming member (70) which fills an optical path space (K1) for exposure light (EL) with a first liquid (LQ) to form an immersion space, and a temperature regulating mechanism (60) which suppresses a change in the temperature of the immersion space forming member (70) accompanying deactivation of formation of the immersion space.

Abstract: In a lithographic apparatus, a localized area of the substrate surface under a projection system is immersed in liquid. The height of a liquid supply system above the surface of the substrate can be varied using actuators. A control system uses feedforward or feedback control with input of the surface height of the substrate to maintain the liquid supply system at a predetermined height above the surface of the substrate.

Abstract: A lithographic apparatus includes an illumination system configured to condition a radiation beam and a support constructed to support a patterning device. The patterning device is configured 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 apparatus includes a heater arrangement that includes an electron beam generator configured to generate an electron beam, and an electron beam guide arrangement configured to guide the electron beam onto an optical element of the lithographic apparatus. The optical element forms a part of the illumination system or the projection system which, in use, is traversed by the radiation beam. The heater arrangement is controllable to provide a distribution of heat on the optical element by deflection of the electron beam.

Abstract: An object of the present invention is a photomask drying device which includes: a sealed chamber containing at least one photomask, a pumping unit to set up and maintain vacuum within said chamber, a support for the photomask placed within said chamber, infrared radiation means placed within said chamber, a system for injecting gas into said chamber characterized in that the infrared radiation means comprise a plurality of infrared radiation sources distributed in a plane parallel to the plane of the photomask in such a way that the distance from the photomask to the infrared radiation means is given by the relationship: D=1.

Abstract: When a transition from a first state where one stage is positioned at a first area directly below projection optical system to which liquid is supplied to a state where the other stage-is positioned at the first area, both stages are simultaneously driven while a state where both stages are close together in the X-axis direction is maintained. Therefore, it becomes possible to make a transition from the first state to the second state in a state where liquid is supplied in the space between the projection optical system and the specific stage directly under the projection optical system. Accordingly, the time from the completion of exposure operation on one stage side until the exposure operation begins on the other stage side can be reduced, which allows processing with high throughput. Further, because the liquid can constantly exist on the image plane side of the projection optical system, generation of water marks on optical members of the projection optical system on the image plane side is prevented.

Abstract: An exposure apparatus and method exposes a substrate via a projection optical system and a liquid. A liquid immersion system supplies liquid to form a liquid immersion region below the projection optical system. First and second tables each can mount a substrate. A drive system drives the first and second tables, which are positionable below the projection optical system. The drive system is controlled to move the first and second tables below the projection optical system relative to the liquid immersion region to replace one of the first and second tables positioned below the projection optical system with the other of the first and second tables such that the liquid immersion region is transferred from the one of the first and second tables to the other of the first and second tables while the liquid immersion region is maintained below and in contact with the projection optical system.

Abstract: A projection exposure apparatus that exposes a substrate with a liquid interposed between a surface of the substrate and an optical element on the substrate side of a projection optical system; includes liquid supply and discharge mechanisms, which supply the liquid via a liquid supply tube as they recover the liquid via a liquid recovery tube, and an adhesion preventing mechanism that prevents an adhesion of impurities on member forming a flow path for the liquid.

Abstract: In a lithographic apparatus, a localized area of the substrate surface under a projection system is immersed in liquid. The height of a liquid supply system above the surface of the substrate can be varied using actuators. A control system uses feedforward or feedback control with input of the surface height of the substrate to maintain the liquid supply system at a predetermined height above the surface of the substrate.

Abstract: An optical element includes a base material, a liquid-repellent member provided on at least a part of a surface of the base material, and a light-reducing member provided between the base material and the liquid-repellent member to protect the liquid-repellent member from radiation of light by reducing the light. The optical element is usable for a liquid immersion exposure apparatus for exposing a substrate through a liquid. It is possible to avoid any inflow of the liquid in a liquid immersion area into an unexpected place via the optical element.

Abstract: A lithographic projection projects a pattern from a patterning device onto a substrate through a liquid confined to a space adjacent the substrate. The space is smaller in plan than the substrate. The apparatus includes a plate substantially parallel to the substrate to divide the space into two parts, the plate having an aperture to allow transmission of the pattern onto the substrate.

Abstract: Exposure apparatus and methods expose a substrate with an energy beam via a projection optical system and has first and second tables on each of which a substrate is mountable. A mark detection system is arranged in a second area different from a first area in which the projection optical system is arranged. A substrate mounted on one of the first and second tables is moved in the first area while the one table is held by a first movable member. A substrate mounted on another of the first and second tables is moved in the second area while the another table is held by a second movable member. The tables held by the first and second movable members are driven so that the another table is moved from the second to the first movable member to be held in place of the one table.