| Patent application number | Description | Published |
|---|
| 20090073406 | MARKER STRUCTURE, MASK PATTERN, ALIGNMENT METHOD, AND LITHOGRAPHIC METHOD AND APPARATUS - A mask pattern for imaging a marker structure on a substrate with a lithographic apparatus, the marker structure being configured to determine optical alignment or overlay, includes constituent parts to define the marker structure. The constituent parts include a plurality of segments, each segment having substantially a size of a device feature and a segment shape. The mask pattern includes at least one assist feature located at a critical part of the segment shape. The at least one assist feature has substantially a size below a resolution of the lithographic projection and is configured to counteract optical aberrations or optical limitations generated in the lithographic projection at the critical part. | 03-19-2009 |
| 20090190115 | METHOD FOR EXPOSING A SUBSTRATE AND LITHOGRAPHIC PROJECTION APPARATUS - A method for exposing a resist layer on a substrate to an image of a pattern on a mask is disclosed whereby, after starting exposure and before completing exposure, a controlled amount of contrast loss is introduced by a controller in the image at the resist layer by changing during exposure the position of the substrate holder. The contrast loss affects the pitch dependency of the resolution of a lithographic projection apparatus, and its control is used to match pitch dependency of resolution between different lithographic projection apparatus. | 07-30-2009 |
| 20090296060 | LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - A lithographic apparatus includes a phase adjuster to adjust a phase of an optical wave traversing an optical element of the phase adjuster during exposure of a pattern on a substrate. In an embodiment, the optical element is a heat controllable optical element in a projection system of the lithographic apparatus. In use, the pattern is illuminated with an illumination mode including an off-axis radiation beam. This beam is diffracted into zeroth-order and first-order diffracted beams oppositely and asymmetrically inclined with respect to an optical axis. An area is identified where the first-order diffracted beam traverses the optical element. An image characteristic of an image of the pattern is optimized by calculating a desired optical phase of the first-order diffracted beam in relation to the optical phase of the zeroth-order diffracted beam. The phase adjuster is controlled to apply the desired optical phase to the first order diffracted beam. | 12-03-2009 |
| 20090316125 | LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - A lithographic apparatus includes a phase adjuster to adjust a phase of an optical wave traversing an optical element of the phase adjuster during exposure of a pattern on a substrate. In an embodiment, the optical element is a heat controllable optical element in a projection system of the lithographic apparatus. In use, the pattern is illuminated with an illumination mode including an off-axis radiation beam. This beam is diffracted into a number of first-order diffracted beams, one associated with a first pitch in the pattern, along a first direction, another associated with a second pitch along a different, second direction in the pattern. An area is identified where the first-order diffracted beam associated with the first pitch traverses the optical element. An image characteristic of an image of the pattern is optimized by calculating a desired optical phase of this first-order diffracted beam in relation to the optical phase of the other first-order diffracted beam. The phase adjuster is controlled to apply the desired optical phase to the first order diffracted beam. | 12-24-2009 |
| 20100021827 | Method of Designing Sets of Mask Patterns, Sets of Mask Patterns, and Device Manufacturing Method - In a multiple-exposure lithographic process a developed resist pattern derived from a first exposure is present within a second resist layer that is exposed in a second exposure of the multiple-exposure lithographic process. The second mask pattern used in the second exposure process includes at least one localized adjustment to at least one feature thereof to compensate for scattering effects of the developed resist pattern that is present when the second exposure is performed. | 01-28-2010 |
| 20100123887 | METHOD FOR A LITHOGRAPHIC APPARATUS - A method is described that includes illuminating a patterning device pattern with a radiation beam having a symmetric illumination mode, the patterning device pattern comprising a first pattern feature that substantially diffracts radiation of the radiation beam, and a second pattern feature that does not substantially diffract radiation of the radiation beam, introducing an asymmetry, relative to an optical axis, in the substantially diffracted radiation using a phase modulation element, illuminating a radiation beam receiving element with radiation emanating from the phase modulation element to form a receiving element pattern that is related to the patterning device pattern, the receiving element pattern having first and second receiving element pattern features related to the first and second pattern features respectively, and determining information at least indicative of a focal property from positional information regarding the relative positions of the first and second receiving element pattern features. | 05-20-2010 |
| 20100129742 | METHOD FOR A LITHOGRAPHIC APPARATUS - A method of increasing a depth of focus of a lithographic apparatus is disclosed. The method includes forming diffracted beams of radiation using a patterning device pattern; and transforming a phase-wavefront of a portion of the diffracted beams into a first phase-wavefront having a first focal plane for the lithographic apparatus, and a second phase-wavefront having a second, different focal plane, wherein the transforming comprises: subjecting a phase of a first portion of a first diffracted beam and a phase of a corresponding first portion of a second diffracted beam to a phase change which results in an at least partial formation of the first phase-wavefront, and subjecting a phase of a second portion of the first diffracted beam and a phase of a corresponding second portion of the second diffracted beam to a phase change which results in an at least partial formation of the second phase-wavefront. | 05-27-2010 |
| 20100149508 | METHOD FOR A LITHOGRAPHIC APPARATUS - In an embodiment, there is provided a method of at least partially compensating for a deviation in a property of a pattern feature to be applied to a substrate using a lithographic apparatus. The method includes determining a desired phase change to be applied to at least a portion of a radiation beam that is to be used to apply the pattern feature to the substrate and which would at least partially compensate for the deviation in the property. The determination of the desired phase change includes determining a desired configuration of a phase modulation element. The method further includes implementing the desired phase change to the portion of the radiation beam when applying the pattern feature to the substrate, the implementation of the desired phase change comprising illuminating the phase modulation element with the portion of the radiation beam when the phase modulation element is in the desired configuration. | 06-17-2010 |
| 20100161099 | Optimization Method and a Lithographic Cell - Variables in each step in a double patterning lithographic process are recorded and characteristics of intermediate features in a double patterning process measured. The final feature is then modeled, and the values of the variables optimized. | 06-24-2010 |
| 20100265479 | DEVICE MANUFACTURING METHOD AND LITHOGRAPHIC APPARATUS - A mask can be used to print a pattern. Due to mask pattern surface topography, an image error may occur, such as an intensity imbalance between adjacent bright lines in the projected pattern. To help alleviate or eliminate the problem of intensity imbalance, the projection system may include an optical phase adjuster constructed and arranged to adjust a phase of an electric field of optical beams of radiation beam traversing the adjuster. A reduction of intensity imbalance is achieved by suitably adjusting the phases of the zeroth, plus first and minus first-order diffracted radiation emanating from the mask pattern. By adjusting the phase differently for different portions of the illumination, the method can be applied such that no decrease of depth of focus due, for example, the 0 | 10-21-2010 |
| 20100310836 | LITHOGRAPHIC METHOD AND ARRANGEMENT - 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. | 12-09-2010 |
