Abstract: A measurement apparatus disclosed that has a radiation source configured to provide a measurement beam of radiation such that an individually controllable element of an array of individually controllable elements capable of modulating a beam of radiation, is illuminated by the measurement beam and redirects the measurement beam, and a detector arranged to receive the redirected measurement beam and determine the position at which the redirected measurement beam is incident upon the detector, the position at which the redirected measurement beam is incident upon the detector being indicative of a characteristic of the individually controllable element.

Abstract: An immersion lithographic apparatus is disclosed having comprising a pump and buffer volume configured to remove remaining liquid from a substrate, the pump and the buffer volume configured to generate a vacuum cleaning gas flow near the substrate by gas suction into the buffer volume. In an embodiment, since gas flow is needed only a limited amount of time (ordinarily less than 5%), evacuation may be performed using only a moderately powered vacuum pump. In addition or alternatively, the buffer volume may be used as a backup volume buffer configured to provide gas vacuum suction, e.g., in case of a vacuum supply outage.

Abstract: A scatterometer has a radiation source capable of emitting radiation in distinct first and second wavelength ranges. An adjustable optical element is provided to effect a chromatic correction as necessary according to which wavelength range is in use. A single scatterometer can thereby effect measurements using widely separated wavelengths.

Abstract: A lithographic projection apparatus includes a reflector assembly, the reflector assembly includes a first and a second reflector extending in a direction of an optical axis, the first and second reflector each having a reflective surface, a backing surface and an entry section at respectively a first and a second distance from the optical axis, the first distance being larger than the second distance, rays deriving from a point on the optical axis being cut off by the entry sections of the first and second reflectors and being reflected on the reflective surface of the first reflector and defining a high radiation intensity zone and a low radiation intensity zone between the reflectors; a radial support member configured to support the reflectors extending in the low radiation intensity zone, wherein the radial support member creates a shade in a downstream direction of the optical axis and a virtual shade in an upstream direction of the optical axis; and a structure placed in the virtual shade.

Abstract: In an immersion lithography apparatus, ultrasonic waves are used to atomize liquid on a surface of the substrate.

Abstract: One embodiment of a method for detecting, sampling, analyzing, and correcting hot spots in an integrated circuit design allows the identification of the weakest patterns within each design layer, the accurate determination of the impact of process drifts upon the patterning performance of the real mask in a real scanner, and the optimum process correction, process monitoring, and RET improvements to optimize integrated circuit device performance and yield. The combination of high speed simulation coupled with massive data collection capability on actual aerial images and/or resist images at the specific patterns of interest provides a complete methodology for optimum RET implementation and process monitoring.

Abstract: A lithographic apparatus is disclosed that includes a projection system configured to project a patterned radiation beam onto a target portion of a substrate, a vacuum chamber through which the patterned beam of radiation is projected during use, and a purge system configured to provide a purge gas flow in the chamber.

Abstract: A lithographic method includes exposing a first layer of material to a radiation beam to form a first pattern feature in the first layer, the first pattern feature having sidewalls, and a focal property of the radiation beam being controlled to control a sidewall angle of the sidewalls; providing a second layer of material over the first pattern feature to provide a coating on sidewalls of the first pattern; removing a portion of the second layer, leaving a coating of the second layer of material on sidewalls of the first pattern; removing the first pattern formed from the first layer, leaving on the substrate at least a part of the second layer that formed a coating on sidewalls of that first pattern, the part of the second layer left forming second pattern features in locations adjacent to the locations of sidewalls of the removed first pattern feature.

Abstract: An optical component of the lithographic apparatus is moved. A substrate support is moved so as to be synchronous with the motion of the optical component. A momentary position of the optical component is measured. A momentary position of the substrate support is measured at a first sampling rate. The measured momentary position of the optical component is compared with a desired momentary position of the optical component to generate an optical component position error signal in accordance with a difference between the two optical component positions. The measured momentary position of the substrate support is compared with a desired momentary position of the substrate support to generate a substrate support position error signal in accordance with a difference between the two substrate support positions. The momentary position of the optical component is adjusted so as to compensate for the difference between the two substrate support positions.

Abstract: An immersion lithography apparatus comprises a temperature controller configured to adjust a temperature of a projection system, a substrate and a liquid towards a common target temperature. Controlling the temperature of these elements and reducing temperature gradients may improve imaging consistency and general lithographic performance. Measures to control the temperature may include controlling the immersion liquid flow rate and liquid temperature, for example, via a feedback circuit.

Abstract: A system and method of manufacturing a semiconductor device lithographically and an article of manufacture involving a lithographic double patterning process having a dye added to either the first or second lithographic pattern are provided. The dye is used to detect the location of the first lithographic pattern and to directly align the second lithographic pattern to it. The day may be fluorescent, luminescent, absorbent, or reflective at a specified wavelength or a given wavelength band. The wavelength may correspond to the wavelength of an alignment beam. The dye allows for detection of the first lithographic pattern even when it is over coated with a radiation sensitive-layer (e.g., resist).

Abstract: The invention relates to a lithographic apparatus arranged to transfer a pattern from a patterning device onto a substrate, including a cooling system to cool a part of the lithographic apparatus, the cooling system including a droplet ejector to form droplets and fire the droplets towards a cooling surface of the part of the lithographic apparatus to cool the part by evaporation of the droplets.

Abstract: A lithographic apparatus including a uniformity correction system is disclosed. Fingers move into and out of intersection with a radiation beam to correct an intensity of the radiation beam. Actuating devices are coupled to the fingers. A width of a tip of each of the fingers is half that of a width of the actuating devices. Systems and methods compensate for uniformity drift. An illumination slit uniformity caused by system drift is measured. First positions of uniformity compensators are determined based on the uniformity. Uniformity compensators are moved to the first respective positions. A substrate is exposed.

Abstract: In an embodiment, a lithographic projection apparatus has an off-axis image field and a concave refractive lens as the final element of the projection system. The concave lens can be cut-away in parts not used optically to prevent bubbles from being trapped under the lens.

Abstract: A method of forming images on a lithographic substrate is disclosed, the method including grouping a plurality of image regions together to form a combined image, determining or receiving a location at which the combined image is to be positioned on the substrate, calculating locations at which the image regions forming the combined image are to be positioned on the substrate, and using a lithographic apparatus to project the image regions at the calculated locations onto the substrate.

Abstract: A cleaning tool to clean a surface of a liquid confinement system of an immersion lithographic apparatus is disclosed, the liquid confinement system having an aperture to allow passage of a beam of radiation therethrough of an immersion lithographic apparatus. The cleaning tool includes a sonic transducer, a reservoir configured to hold liquid between the sonic transducer and the surface to be cleaned, and a barrier positioned in the reservoir under the aperture to form, in use, a shield to sonic waves.

Abstract: A conduit system for a lithographic apparatus is disclosed, the conduit system including a conduit configured to guide a liquid or liquid-gas mixture, and a gas injection nozzle configured to introduce a gas in the liquid or liquid-gas mixture to at least partially absorb pressure peaks or waves in the liquid or liquid-gas mixture. In an embodiment, the gas injection nozzle may be arranged in a pump of the conduit system. The pump further includes a pump inlet, a pump outlet and a pump chamber between the pump inlet and the pump outlet arranged for compression of the liquid or liquid-gas mixture.

Abstract: The mechanical properties of a pellicle frame and/or the pellicle are optimized so that the mechanical effect of the frame and pellicle on the mask shape in use is optimum for imaging. In particular the pellicle frame assembly may be arranged to be mechanically neutral, i.e., the mask adopts the same shape with pellicle attached as it would without the pellicle.

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 lithographic apparatus includes an illumination system constructed and arranged to condition a radiation beam, and a support constructed and arranged to support 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. The apparatus also includes a substrate table constructed and arranged to hold a substrate, and a projection system constructed and arranged to project the patterned radiation beam onto a target portion of the substrate. The substrate table includes a chuck having a plurality of protrusions constructed and arranged to support corresponding parts of a bottom surface of a wafer. The top surface of at least one of the protrusions includes a plurality of elements that define a reduced contact area between the substrate and the top surface of the protrusion.