Abstract: Liquid is supplied to a space between the projection system of a lithographic apparatus and a substrate. A flow of gas towards a vacuum inlet prevents the humid gas from escaping to other parts of the lithographic apparatus. This may help to protect intricate parts of the lithographic apparatus from being damaged by the presence of humid gas.

Abstract: A gas curtain is provided to separate a component of a lithographic apparatus from contaminated gas. The gas curtain is supplied by an opening. The opening is at a boundary of a protection environment with which a surface of the component comes into contact. The gas curtain may separate the component from a moving part of the apparatus.

Abstract: A lithographic projection apparatus includes a beam production system to provide a beam of radiation, pattern the beam of radiation, and project the patterned beam onto a target portion of a substrate, a support table including protrusions to support an article, a detector to detect height deviations of the protrusions, a material removing device arranged to modify a height of the protrusion material, a controller coupled between the detector and the material removing device, wherein material removing device includes a removal tool selected from the group consisting of a mechanical polishing device, a magneto rheological finishing tool, and a single or multipoint diamond tool.

Abstract: A method and apparatus for stabilizing the seed laser in a laser produced plasma (LPP) extreme ultraviolet (EUV) light system are disclosed. In one embodiment, the cavity length of the laser may be adjusted by means of a movable mirror forming one end of the cavity. The time delay from the release of an output pulse to the lasing threshold next being reached is measured at different mirror positions, and a mirror position selected which results in a cavity mode being aligned with the gain peak of the laser, thus producing a minimum time delay from an output pulse of the laser to the next lasing threshold. A Q-switch in the laser allows for pre-lasing and thus jitter-free timing of output pulses. Feedback loops keep the laser output at maximum gain and efficiency, and the attenuation and timing at a desired operating point.

Abstract: A lithographic projection apparatus is disclosed in which a liquid supply system provides a liquid between the projection system and the substrate. An active drying station is provided to actively remove the liquid from the substrate W or other objects after immersion of all or part of a surface of the substrate W or other objects.

Abstract: A meniscus pinning device has a plurality of openings through which liquid and gas from the environment are extracted. The openings are of an intermediate size, having a maximum cross-sectional dimension (e.g., diameter) in the range of from about 75 ?m to about 150 ?m.

Abstract: Systems and methods for process simulation are described. The methods may use a reference model identifying sensitivity of a reference scanner to a set of tunable parameters. Chip fabrication from a chip design may be simulated using the reference model, wherein the chip design is expressed as one or more masks. An iterative retuning and simulation process may be used to optimize critical dimension in the simulated chip and to obtain convergence of the simulated chip with an expected chip. Additionally, a designer may be provided with a set of results from which an updated chip design is created.

Abstract: Described herein are methods for matching the characteristics of a lithographic projection apparatus to a reference lithographic projection apparatus, where the matching includes optimizing projection optics characteristics. The projection optics can be used to shape wavefront in the lithographic projection apparatus. According to the embodiments herein, the methods can be accelerated by using linear fitting algorithm or using Taylor series expansion using partial derivatives of transmission cross coefficients (TCCs).

Abstract: A lithographic projection apparatus is disclosed for use with an immersion liquid positioned between the projection system and a substrate. Several methods and mechanism are disclosed to protect components of the projection system, substrate table and a liquid confinement system. These include providing a protective coating on a final element of the projection system as well as providing one or more sacrificial bodies upstream of the components. A two component final optical element of CaF2 is also disclosed.

Abstract: Determining line edge roughness comprises reflecting at least one radiation beam off the object, observing a first optical response signature from a beam reflected from the object, or a component thereof, being polarized with an electrical vector in a first orientation relative to the object; and observing a second optical response signature from a beam reflected from the object, or a component thereof, being polarized with an electrical vector in a second orientation relative to the object. Line edge roughness can then be determined from the two optical response signatures.

Abstract: Described herein is a method of processing a pattern layout for a lithographic process, the method comprising: identifying a feature from a plurality of features of the layout, the feature violating a pattern layout requirement; and reconfiguring the feature, wherein the reconfigured feature still violates the pattern layout requirement, the reconfiguring including evaluating a cost function that measures a lithographic metric affected by a change to the feature and a parameter characteristic of relaxation of the pattern layout requirement.

Abstract: A radiation source comprises a nozzle configured to direct a stream of fuel droplets (400) along a trajectory towards a plasma formation location and a laser configured to direct laser radiation to the plasma formation location to convert the fuel droplets at the plasma formation location into a plasma. The laser comprises an amplifier (310, 320) and an optical element (500) configured to define a divergent beam path for radiation passing through the amplifier.

Abstract: An electrostatic clamp for use in holding an object onto a supporting table, the electrostatic clamp comprising: a multi-layer film comprising an electrode defined in an electrically conducting layer which is positioned between electrically insulating layers.

Abstract: A method is described for obtaining information for use in modeling of a lithographic process. A pattern feature is formed on a target portion of a substrate by projecting a beam of radiation onto the target portion of the substrate. For that target portion the lithographic process is characterized by one or both of a first property that varies in a first direction along a surface of the substrate, and a second property that varies in a second direction along a surface of the substrate. A property of the pattern feature is measured. Using the measured property of the pattern feature and at least one of the first and second properties, information is obtained for use in modeling the process. The lithographic process may be or include the projection of the beam of radiation onto the surface of the substrate.

Abstract: A method of determining a structural parameter related to process-induced asymmetry, the method including: illuminating a structure, having an asymmetry property and a sub-structure susceptible to process-induced asymmetry, with radiation with a plurality of illumination conditions, at a first location of a substrate, determining a difference between measured asymmetry properties of the structure obtained with each of the plurality of illumination conditions, calculating a differential dependence of a difference between modeled asymmetry properties simulated for illumination by each of the plurality of illumination conditions on a structural parameter representing process-induced asymmetry of the sub-structure, and determining a value of the structural parameter using the determined difference and the calculated differential dependence.

Abstract: A substrate table positioning device that is supported by four bearing elements is provided. The substrate table positioning device also includes a balance mass. Two of the bearing elements support the base frame in such a way that they can move in a vertical direction independently of the other bearing elements. This can be achieved by using a hinge. This structure of substrate table positioning device has a higher lowest Eigen frequency of oscillation than that of substrate table positioning devices supported by three bearing elements. As such, the balance mass is not excited by typical vibrations that occur in the lithographic apparatus. This enables better positional control of the substrate table. It also enables at least some of the dimensions of the frame elements of the balance mass to be reduced.

Abstract: In a lithographic apparatus, a liquid supply system to provide a liquid to a space between the table and an optical element and to contact a surface of the optical element, the space having a cross-sectional area smaller than the area of the substrate, the liquid supply system comprising a liquid confinement structure extending along at least a part of a boundary of the space between the optical element surface and the table, wherein at least part of the liquid confinement structure is positioned between the optical element surface and the table, the at least part of the liquid confinement structure has an aperture through which the patterned beam can pass, the liquid confinement structure comprises an inlet to supply the liquid to the space above the aperture, and the liquid confinement structure comprises an outlet to remove the liquid, supplied by the inlet, from the space below the aperture.

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: A radiation source for generating EUV from a stream of molten metal 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 vaporise at least some of said droplets of fuel, whereby radiation is generated. The fuel droplet generator has nozzle, fuel supply line, and reservoir, with a pumping device arranged to supply a flow of molten metal fuel from the reservoir through the fuel feed line and out of the nozzle as a stream of droplets. The fuel droplet generator has a replaceable filter assembly in the fuel feed line, arranged to filter the molten metal fuel in use, to deter nozzle blockage by solid particulate impurities in the fuel.

Abstract: According to a first aspect of the present invention, there is provided a radiation source comprising: a nozzle configured to direct a stream of fuel droplets (70) along a trajectory towards a plasma formation location; a laser configured to direct laser radiation at a fuel droplet at the plasma formation location to generate, in use, a radiation generating plasma; wherein the laser comprises: a seed laser (50) for providing a seed laser beam (52); a beam splitter (54) for receiving the seed laser beam from the seed laser; an optical amplifier (58) for receiving the seed laser beam from the beam splitter and performing optical amplification; a first reflector (60) located downstream of the optical amplifier, configured to direct the seed laser beam back through the optical amplifier and on to the beam splitter; and a second reflector (70) located further downstream of the beam splitter, configured to receive the seed laser beam from the beam splitter and to direct at least a portion of the seed laser beam bac