Patent application number | Description | Published |
20080212057 | Substrate comprising a mark - A substrate comprises a first mark and a second mark. The first mark comprises a first pattern with at least one mark feature formed by a first material and at least one region formed by a second material. The first and second materials have different material characteristics with respect to a substrate treatment process such that a step height in a direction substantially perpendicular to the surface of the substrate may be created by applying the substrate treatment process. The second mark can be provided with a second step height by applying the substrate treatment process. The second step height is substantially different from the first step height. | 09-04-2008 |
20090027691 | Lithographic Apparatus and Device Manufacturing Method with Reduced Scribe Lane Usage for Substrate Measurement - In a device manufacturing method and a metrology apparatus, metrology measurements are executed using radiation having a first wavelength. Subsequently a grid of conducting material is applied on the substrate, the grid having grid openings which in a first direction in the plane of the grid are smaller than the first wavelength. The space in the scribe lane where the measurement target was, is now shielded and may be used again in further layers or processing steps of the substrate. | 01-29-2009 |
20090066921 | METHOD FOR PRODUCING A MARKER ON A SUBSTRATE, LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - A method of producing a marker on a substrate includes projecting a patterned beam on a layer of resist disposed on a substrate in a lithographic apparatus to create a latent marker; and locally heating the substrate at the marker location in the lithographic apparatus to transform the latent marker into a detectable marker. | 03-12-2009 |
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 |
20090147232 | MARKER STRUCTURE AND METHOD OF FORMING THE SAME - The invention relates to a marker structure for optical alignment of a substrate and provided thereon. The marker structure has a first reflecting surface at a first level and a second reflecting surface at a second level. A separation between the first level and the second level determines a phase depth condition. The marker structure further has an additional structure. The additional structure is arranged to modify the separation during manufacture of the marker structure. The invention further relates to a method of forming such a marker structure. | 06-11-2009 |
20090153861 | Alignment Method, Alignment System, and Product with Alignment Mark - The position of a product is measured using an alignment mark on the product. Radiation is transmitted towards the alignment mark and diffracted by a pattern in the alignment mark. Position information is determined from phase relations of the diffracted radiation. The alignment mark comprises a set of mutually parallel conductor tracks from which the diffracted radiation is collected, the pattern being defined by a pattern of variation of the pitch between successive tracks as a function of position along the surface of the product. Thus, for example the pattern comprises alternating first and second areas wherein the pitch has a first and second value, respectively. Because the tracks in the different parts of the pattern, such as the first and second areas, are parallel to each other improved measurements are possible. | 06-18-2009 |
20090166899 | Method of Creating an Alignment Mark on a Substrate and Substrate - In an embodiment, a method of creating an alignment mark on a substrate includes forming a plurality of lines segmented into electrically conducting line segments and space segments, thereby forming spaces between the lines to form a macroscopic structure in a first layer of the substrate, creating a plurality of electrically conducting trenches in a second layer of the substrate, and arranging the plurality of trenches to be in electrical contact with the line segments and overlapping the space segments at least partially. | 07-02-2009 |
20090310113 | SUB-SEGMENTED ALIGNMENT MARK ARRANGEMENT - An alignment mark on a substrate includes a periodic structure of a plurality of first elements and a plurality of second elements. The elements are arranged in an alternating repetitive sequence in a first direction. An overall pitch of the periodic structure is equal to a sum of a width of the first element and a width of the second element in the first direction. Each first element has a first periodic sub-structure with a first sub-pitch and each second element has a second periodic sub-structure with second sub-pitch. An optical property of the first element for interaction with a beam of radiation having a wavelength λ is different from the optical property of the second element. The overall pitch is larger than the wavelength λ, and each of the first and the second sub-pitch is smaller than the wavelength. | 12-17-2009 |
20100068830 | MARKER STRUCTURE AND METHOD FOR CONTROLLING ALIGNMENT OF LAYERS OF A MULTI-LAYERED SUBSTRATE - The invention includes a lithographic system having a first source for generating radiation with a first wavelength and an alignment system with a second source for generating radiation with a second wavelength. The second wavelength is larger than the first wavelength. A marker structure is provided having a first layer and a second layer. The second layer is present either directly or indirectly on top of said first layer. The first layer has a first periodic structure and the second layer has a second periodic structure. At least one of the periodic structures has a plurality of features in at least one direction with a dimension smaller than 400 nm. Additionally, a combination of the first and second periodic structure forms a diffractive structure arranged to be illuminated by radiation with the second wavelength. | 03-18-2010 |
20100140816 | METHOD OF FORMING A MARKER, SUBSTRATE HAVING A MARKER AND DEVICE MANUFACTURING METHOD - A marker, for example an alignment marker or an overlay marker is formed in two steps. First, a pattern of two chemically distinct feature types having a pitch comparable to product features is formed. This pattern is then masked by resist in the form of the desired marker, which has a larger pitch than the pattern. Finally, one of the two feature types is selectively etched in the open areas. The result is a marker with a large pitch suitable to be read with long wavelength radiation but the edges of the features are defined in an exposure step having a pitch comparable to the product features. | 06-10-2010 |
20100141916 | LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD WITH DOUBLE EXPOSURE OVERLAY CONTROL - A device manufacturing method includes a transfer of a pattern from a patterning device onto a substrate. The device manufacturing method further includes transferring a pattern of a main mark to a base layer for forming an alignment mark; depositing a pattern receiving layer on the base layer; in a first lithographic process, aligning, by using the main mark, a first mask that includes a first pattern and a local mark pattern, and transferring the first pattern and the local mark pattern to the pattern receiving layer; aligning, by using the local mark pattern, a second mask including a second pattern relative to the pattern receiving layer; and | 06-10-2010 |
20100245792 | Alignment Measurement Arrangement, Alignment Measurement Method, Device Manufacturing Method and Lithographic Apparatus - An alignment measurement arrangement includes a source, an optical system and a detector. The source generates a radiation beam with a plurality of wavelength ranges. The optical system receives the radiation beam, produces an alignment beam, directs the alignment beam to a mark located on an object, receives alignment radiation back from the mark, and transmits the received radiation. The detector receives the alignment radiation and detects an image of the alignment mark and outputs a plurality of alignment signals, r, each associated with one of the wavelength ranges. A processor, in communication with the detector, receives the alignment signals, determines signal qualities of the alignment signals; determines aligned positions of the alignment signals, and calculates a position of the alignment mark based on the signal qualities, aligned positions, and a model relating the aligned position to the range of wavelengths and mark characteristics, including mark depth and mark asymmetry. | 09-30-2010 |
20100301458 | Alignment Target Contrast in a Lithographic Double Patterning Process - 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). | 12-02-2010 |
20100323171 | Apparatus and Method for Providing Resist Alignment Marks in a Double Patterning Lithographic Process - A method is described for alignment of a substrate during a double patterning process. A first resist layer containing at least one alignment mark is formed on the substrate. After the first resist layer is developed, a second resist layer is deposited over the first resist layer, leaving a planar top surface (i.e., without topography). By baking the second resist layer appropriately, a symmetric alignment mark is formed in the second resist layer with little or no offset error from the alignment mark in the first resist layer. The symmetry of the alignment mark formed in the second resist can be enhanced by appropriate adjustments of the respective thicknesses of the first and second resist layers, the coating process parameters, and the baking process parameters. | 12-23-2010 |
20110003256 | Lithographic Apparatus and Device Manufacturing Method - A method for providing temporary measurement targets during a multiple patterning process which can be removed in the completion of the process. The metrology target is defined in either the first or the second exposure of a multiple exposure process and whether or not it is temporary or made permanent is selected according to whether or not the area of the target is covered or cleared out in the other exposure. The use of temporary targets reduces the amount of space on the substrate that must be devoted to targets. | 01-06-2011 |
20110028004 | Inspection Method and Apparatus, Lithographic Apparatus, Lithographic Processing Cell and Device Manufacturing Method - A mark used in the determination of overlay error comprises sub-features, the sub-features having a smallest pitch approximately equal to the smallest pitch of the product features. The sensitivity to distortions and aberrations is similar as that for the product features. When the mark is developed the sub-features merge and the outline of the larger feature is developed. | 02-03-2011 |
20110075238 | Method and System for Increasing Alignment Target Contrast - A semiconductor wafer is aligned using a double patterning process. A first resist layer having a first optical characteristic is deposited and foams at least one alignment mark. The first resist layer is developed. A second resist layer having a second optical characteristic is deposited over the first resist layer. The combination of first and second resist layers and alignment mark has a characteristic such that radiation of a pre-determined wavelength incident on the alignment mark produces a first or higher order diffraction as a function of the first and second optical characteristics. | 03-31-2011 |
20110109888 | Method and Apparatus for Measuring Line End Shortening, Substrate and Patterning Device - End of line effect can occur during manufacture of components using a lithographic apparatus. These end of line effects can result in line end shortening of the features being manufactured. Such line end shortening may have an adverse impact on the component being manufactured. It is therefore desirable to predict and/or monitor the line end shortening. A test pattern is provided that has two separate areas such that, as designed, when the two areas are illuminated with radiation (for example from an angle-resolved scatterometer) they result in diffused radiation with asymmetry that is equal in sign to each other, but opposite in magnitude. When the test pattern is actually manufactured, line end shortening occurs, and so the asymmetry of the two areas are not equal and opposite. From the measured asymmetry of the manufactured test pattern, the amount of line end shortening that has occurred can be estimated. | 05-12-2011 |
20110189614 | LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD WITH DOUBLE EXPOSURE OVERLAY CONTROL - A device manufacturing method includes a transfer of a pattern from a patterning device onto a substrate. The device manufacturing method further includes transferring a pattern of a main mark to a base layer for forming an alignment mark; depositing a pattern receiving layer on the base layer; in a first lithographic process, aligning, by using the main mark, a first mask that includes a first pattern and a local mark pattern, and transferring the first pattern and the local mark pattern to the pattern receiving layer; aligning, by using the local mark pattern, a second mask including a second pattern relative to the pattern receiving layer; and | 08-04-2011 |
20110273685 | PRODUCTION OF AN ALIGNMENT MARK - A method of production of alignment marks uses a self-aligned double patterning process. An alignment mark pattern is provided with first and second sub-segmented elements. After selecting the dipolar illumination orientation, dipole-X is used to illuminate the pattern and to image the first elements on the wafer, but not the second elements. Alternatively, dipole-Y is used to illuminate the pattern and to image the second elements on the wafer, but not the first elements. In either case, self-aligned double patterning processing may then be performed to produce product-like alignment marks with high contrast and wafer quality (WQ). Subsequently the X and Y alignment marks thus produced are used for the step of alignment in a lithographic process. | 11-10-2011 |
20130017378 | Apparatus and Method for Providing Resist Alignment Marks in a Double Patterning Lithographic Process - A method is described for alignment of a substrate during a double patterning process. A first resist layer containing at least one alignment mark is formed on the substrate. After the first resist layer is developed, a second resist layer is deposited over the first resist layer, leaving a planar top surface (i.e., without topography). By baking the second resist layer appropriately, a symmetric alignment mark is formed in the second resist layer with little or no offset error from the alignment mark in the first resist layer. The symmetry of the alignment mark formed in the second resist can be enhanced by appropriate adjustments of the respective thicknesses of the first and second resist layers, the coating process parameters, and the baking process parameters. | 01-17-2013 |
20130070226 | MARKER STRUCTURE AND METHOD OF FORMING THE SAME - The invention relates to a marker structure for optical alignment of a substrate and provided thereon. The marker structure has a first reflecting surface at a first level and a second reflecting surface at a second level. A separation between the first level and the second level determines a phase depth condition. The marker structure further has an additional structure. The additional structure is arranged to modify the separation during manufacture of the marker structure. The invention further relates to a method of forming such a marker structure. | 03-21-2013 |
20130141723 | Alignment Mark Deformation Estimating Method, Substrate Position Predicting Method, Alignment System and Lithographic Apparatus - A method is used to estimate a value representative for a level of alignment mark deformation on a processed substrate using an alignment system. The alignment sensor system is able to emit light at different measuring frequencies to reflect from an alignment mark on the substrate and to detect a diffraction pattern in the reflected light in order to measure an alignment position of the alignment mark. The two or more measuring frequencies are used to measure an alignment position deviation per alignment mark associated with each of the two or more measuring frequencies relative to an expected predetermined alignment position of the alignment mark. A value is determined representative for the spread in the determined alignment position deviations per alignment mark in order to estimate the level of alignment mark deformation. | 06-06-2013 |
20140192333 | Alignment Target Contrast in a Lithographic Double Patterning Process - 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 dye 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). | 07-10-2014 |