Abstract: A lithographic projection apparatus is disclosed where at least part of a space between a projection system of the apparatus and a substrate is filled with a liquid by a liquid supply system. The projection system is separated into two separate physical parts. With substantially no direct connection between the two parts of the projection system, vibrations induced in a first of the two parts by coupling of forces through the liquid filling the space when the substrate moves relative to the liquid supply system affects substantially only the first part of the projection system and not the other second part.

Abstract: A method to improve a lithographic process for imaging a portion of a design layout onto a substrate using a lithographic projection apparatus and for transferring the imaged portion of the design layout to the substrate by an etching process, which method includes: determining a value of at least one evaluation point of the lithographic process for each of a plurality of variations of the etching process; computing a multi-variable cost function of a plurality of design variables that are characteristics of the lithographic process, wherein the multi-variable cost function is a function of deviation from the determined values of the at least one evaluation point; and reconfiguring the characteristics of the lithographic process by adjusting the design variables until a termination condition is satisfied. This method may reduce the need of repeated adjustment to the lithographic process when the etching process varies.

Abstract: Disclosed is a method of performing a measurement in an inspection apparatus; and an associated inspection apparatus and HHG source. The method comprises configuring one or more controllable characteristics of at least one driving laser pulse of a high harmonic generation radiation source to control the output emission spectrum of illumination radiation provided by the high harmonic generation radiation source; and illuminating a target structure with said illuminating radiation. The method may comprise configuring the driving laser pulse so that the output emission spectrum comprises a plurality of discrete harmonic peaks. Alternatively the method may comprise using a plurality of driving laser pulses of different wavelengths such that the output emission spectrum is substantially monochromatic.

Abstract: An illumination system for a metrology apparatus that can achieve illumination spatial profile flexibility, high polarization extinction ratio, and high contrast. The illumination system includes a polarizing beam splitter (PBS), an illumination mode selector (IMS), and a reflective spatial light modulator (SLM). The PBS divides an illumination beam into sub-beams. The IMS has a plurality of apertures that transmits at least one sub-beam and may be arranged in multiple illumination positions corresponding to illumination modes. A pixel array of the reflective SLM and reflects a portion of the sub-beam transmitted by the IMS back to the IMS and PBS. The PBS, IMS, SLM collectively generates a complex amplitude or intensity spatial profile of the transmitted sub-beam.

Abstract: A method for improving a lithographic process for imaging a portion of a design layout onto a substrate using a lithographic projection apparatus, the method including: calculating a discrete pupil profile based on a desired pupil profile; selecting a discrete change to the discrete pupil profile; and applying the selected discrete change to the discrete pupil profile. The methods according to various embodiments disclosed herein may reduce the computational cost of discrete optimization from O(an) to O(n) wherein a is constant and n is the number of knobs that can generate discrete change in the pupil profile.

Abstract: A method including: obtaining a detected representation of radiation redirected by each of a plurality of structures from a substrate additionally having a device pattern thereon, wherein each structure has an intentional different physical configuration of the respective structure than the respective nominal physical configuration of the respective structure, wherein each structure has geometric symmetry at the respective nominal physical configuration, wherein the intentional different physical configuration of the structure causes an asymmetric optical characteristic distribution and wherein a patterning process parameter measures change in the physical configuration; and determining a value, based on the detected representations and based on the intentional different physical configurations, to setup, monitor or correct a measurement recipe for determining the patterning process parameter.

Abstract: An optical pulse for an extreme ultraviolet (EUV) light source may be formed by illuminating a semiconductor material of a modulation system with a first light beam having a first wavelength; applying a voltage to the semiconductor material for a time duration, the applied voltage being sufficient to modify an index of refraction of the semiconductor material such that a polarization state of a light beam having a second wavelength passing through the semiconductor material is modified to pass through at least one polarization-based optical element of the modulation system; and forming an optical pulse by passing a second light beam having the second wavelength through the semiconductor material during the time duration.

Abstract: Methods and systems for automatically generating robust metrology targets which can accommodate a variety of lithography processes and process perturbations. Individual steps of an overall lithography process are modeled into a single process sequence to simulate the physical substrate processing. That process sequence drives the creation of a three-dimensional device geometry as a whole, rather than “building” the device geometry element-by-element.

Abstract: Disclosed is a radiation source module and a radiation collector for the module with the radiation collector comprising a substrate coated with at least one reflective layer and a plurality of perforations within the reflective layer, with the plurality of holes forming vertices of a grid substantially covering the surface, and wherein the coating may comprise multiple layers.

Abstract: An inspection method, and corresponding apparatus, enables classification of pupil images according to a process variable. The method comprises acquiring diffraction pupil images of a plurality of structures formed on a substrate during a lithographic process. A process variable of the lithographic process varies between formation of the structures, the variation of the process variable resulting in a variation in the diffraction pupil images. The method further comprises determining at least one discriminant function for the diffraction pupil images, the discriminant function being able to classify the pupil images in terms of the process variable.

Abstract: A method of metrology target design is described. The method includes providing a range or a plurality of values for design parameter of a metrology target and by a processor, selecting, by solving for and/or sampling within the range or the plurality of values for the design parameters, a plurality of metrology target designs having one or more design parameters meeting a constraint for a design parameter of the metrology target.

Abstract: A method including obtaining an image of a plurality of structures on a substrate, wherein each of the plurality of structures is formed onto the substrate by transferring a corresponding pattern of a design layout; obtaining, from the image, a displacement for each of the structures with respect to a reference point for that structure; and assigning each of the structures into one of a plurality of groups based on the displacement.

Abstract: Disclosed is a metrology apparatus for measuring a parameter of a lithographic process, and associated computer program and method. The metrology apparatus comprises an optical system for measuring a target on a substrate by illuminating the target with measurement radiation and detecting the measurement radiation scattered by the target; and an array of lenses. Each lens of the array is operable to focus the scattered measurement radiation onto a sensor, said array of lenses thereby forming an image on the sensor which comprises a plurality of sub-images, each sub-image being formed by a corresponding lens of the array of lenses. The resulting plenoptic image comprises image plane information from the sub-images, wavefront distortion information (from the relative positions of the sub-images) and pupil information from the relative intensities of the sub-images.

Abstract: An inspection substrate for inspecting a component, such as a liquid confinement system, of an apparatus for processing production substrates is discussed. The inspection substrate includes a body having dimensions similar to a production substrate so that the inspection substrate is compatible with the apparatus, an illumination device, such as light emitting diodes, embedded in the body, a sensor, such as an imaging device or a pressure sensor, that is embedded in the body and configured to generate inspection information, such as image data, relating to a parameter of the component of the apparatus proximate to the inspection substrate, and a storage device embedded in the body and configured to store the inspection information.

Abstract: A membrane transmissive to EUV radiation, which may be used as a pellicle or spectral filter in a lithographic apparatus. The membrane has one or more high doped regions wherein the membrane is doped with a dopant concentration greater than 1017 cm?3, and one or more regions with low (or no) doping. The membrane may have a main substrate having low doping and one or more additional layers, wherein the high doped regions are within some or all of the additional layers.

Abstract: A radiation source for a lithographic apparatus, in particular a laser-produced plasma source includes a fan unit surrounding but not obstructing the collected radiation beam that is operated to generate a flow in a buffer gas away from the optical axis. The fan unit can include a plurality of flat or curved blades generally parallel to the optical axis and driven to rotate about the optical axis.

Abstract: Methods of identifying a hot spot from a design layout or of predicting whether a pattern in a design layout is defective, using a machine learning model. An example method disclosed herein includes obtaining sets of one or more characteristics of performance of hot spots, respectively, under a plurality of process conditions, respectively, in a device manufacturing process; determining, for each of the process conditions, for each of the hot spots, based on the one or more characteristics under that process condition, whether that hot spot is defective; obtaining a characteristic of each of the process conditions; obtaining a characteristic of each of the hot spots; and training a machine learning model using a training set including the characteristic of one of the process conditions, the characteristic of one of the hot spots, and whether that hot spot is defective under that process condition.

Abstract: A pick-and-place tool including a plurality of movable holder structures, and a plurality of pick-and-place structures, each holder structure accommodating two or more of the pick-and-place structures, wherein at least one of the two or more pick-and-place structures of a respective holder structure is able to move along a respective holder structure independently from another at least one of the two or more pick-and-place structures of the respective holder structure, and wherein each pick-and-place structure includes a pick-up element configured to pick up a donor component at a donor structure and place the donor component an acceptor structure.

Abstract: A lithographic apparatus obtains a height map of a substrate and uses the height map when controlling imaging of the pattern to the substrate. The apparatus is arranged to disregard at least partially height anomalies when controlling the imaging. The height anomalies may be identified by processing the height map. For example, in some embodiments the height anomalies are identified using a shape recognition model. In some embodiments, a modified version of the height map is produced in which the height anomalies are at least partially removed, and the modified version of the height map is used in controlling the imaging. An anomaly map may be used together with the (unmodified) height map to control imaging.

Abstract: An overlay measurement (OV) is based on asymmetry in a diffraction spectrum of target structures formed by a lithographic process. Stack difference between target structures can be perceived as grating imbalance (GI), and the accuracy of the overlay measurement may be degraded. A method of predicting GI sensitivity is performed using first and second images (45+, 45?) of the target structure using opposite diffraction orders. Regions (ROI) of the same images are used to measure overlay. Multiple local measurements of symmetry (S) and asymmetry (A) of intensity between the opposite diffraction orders are made, each local measurement of symmetry and asymmetry corresponding to a particular location on the target structure. Based on a statistical analysis of the local measurements of symmetry and asymmetry values, a prediction of sensitivity to grating imbalance is obtained. This can be used to select better measurement recipes, and/or to correct errors caused by grating imbalance.