Patent application number | Description | Published |
20100055580 | METHOD FOR FRACTURING CIRCULAR PATTERNS AND FOR MANUFACTURING A SEMICONDUCTOR DEVICE - A method for manufacturing a semiconductor device using a photomask and optical lithography is disclosed, wherein circular patterns on the semiconductor wafer are formed by using circular patterns on the photomask, which is manufactured using a charged particle beam writer. In one embodiment, circular patterns of varying sizes have been formed on the photomask using a single character projection (CP) character, by varying the charged particle beam dosage. A method for fracturing circular patterns is also disclosed, either using circular CP characters or using VSB shots wherein the union of the plurality of VSB shots is different than the set of desired patterns. | 03-04-2010 |
20100055581 | METHOD FOR DESIGN AND MANUFACTURE OF A RETICLE USING VARIABLE SHAPED BEAM LITHOGRAPHY - A method is disclosed for using non-overlapping variable shaped beam (VSB) shots in the design and manufacture of a reticle, where the union of the plurality of shots deviates from the desired pattern. Methods are described for fracturing or mask data preparation or proximity effect correction of a desired pattern to be formed on a reticle; for forming a pattern on a reticle using charged particle beam lithography; and for optical proximity correction (OPC) of a desired pattern. Dosages of the shots may be allowed to vary with respect to each other. The plurality of shots may be determined such that a pattern on the surface calculated from the plurality of shots is within a predetermined tolerance of the desired pattern. In some embodiments, an optimization technique may be used to minimize shot count. | 03-04-2010 |
20100055586 | METHOD AND SYSTEM FOR FORMING CIRCULAR PATTERNS ON A SURFACE - A method for forming circular patterns on a surface using a character projection (CP) charged particle beam writer is disclosed, wherein circular patterns of different sizes may be formed using a single CP character, by varying dosage. A method for forming circular patterns on a surface using a variable shaped beam (VSB) charged particle beam writer is also disclosed, wherein the dosages of the shots may vary, and wherein the union of the shots is different than the set of target patterns. A method for forming circular patterns on a surface using a library of glyphs is also disclosed, wherein the glyphs are pre-calculated dosage maps that can be formed by one or more charged particle beam shots. | 03-04-2010 |
20110053056 | Method for Fracturing and Forming a Pattern Using Curvilinear Characters with Charged Particle Beam Lithography - In the field of semiconductor production using shaped charged particle beam lithography, a method and system for fracturing or mask data preparation or proximity effect correction is disclosed, wherein a series of curvilinear character projection shots are determined for a charged particle beam writer system, such that the set of shots can form a continuous track, possibly of varying width, on a surface. A method for forming a continuous track on a surface using a series of curvilinear character projection shots is also disclosed. Methods for manufacturing a reticle and for manufacturing a substrate such as a silicon wafer by forming a continuous track on a surface using a series of curvilinear character projection shots is also disclosed. | 03-03-2011 |
20110089344 | Method for Fracturing a Pattern for Writing with a Shaped Charged Particle Beam Writing System Using Dragged Shots - In the field of semiconductor production using shaped charged particle beam lithography, a method and system for fracturing or mask data preparation or proximity effect correction is disclosed, wherein a shot determined for a shaped charged particle beam writer system comprises dragging the charged particle beam across a surface during the shot, so as to form a complex pattern in a single, extended shot. The dragging may be done with either variable shaped beam (VSB) or character projection (CP) shots. Methods for specifying in the shot data the path for the dragged shot are also disclosed. Other embodiments include using dragged shots with partial projection, varying the dragging velocity during a shot, and combining dragged shots with conventional shots. A method and system for creating glyphs which contain dragged shots is also disclosed. | 04-21-2011 |
20110089345 | METHOD AND SYSTEM FOR MANUFACTURING A SURFACE USING CHARGED PARTICLE BEAM LITHOGRAPHY - In the field of semiconductor production using shaped beam charged particle beam lithography, a pattern is formed on a surface by dragging a charged particle beam across the surface in a single extended shot to form a track. In some embodiments, the track may form a straight path, a curved path, or a perimeter of a curvilinear shape. In other embodiments, the width of the track may be altered by varying the velocity of the dragged beam. The techniques may be used for manufacturing an integrated circuit by dragging a charged particle beam across a resist-coated wafer to transfer a pattern to the wafer, or by dragging a charged particle beam across a reticle, where the reticle is used to manufacture a photomask which is then used to transfer a pattern to a wafer using an optical lithographic process. | 04-21-2011 |
20120025108 | Method for Fracturing and Forming a Pattern Using Curvilinear Characters with Charged Particle Beam Lithography - In the field of semiconductor production using shaped charged particle beam lithography, a method and system for fracturing or mask data preparation or proximity effect correction is disclosed, wherein a series of curvilinear character projection shots are determined for a charged particle beam writer system, such that the set of shots can form a continuous track, possibly of varying width, on a surface. A method for forming a continuous track on a surface using a series of curvilinear character projection shots is also disclosed. Methods for manufacturing a reticle and for manufacturing a substrate such as a silicon wafer by forming a continuous track on a surface using a series of curvilinear character projection shots is also disclosed. | 02-02-2012 |
20120034554 | Method for Fracturing and Forming a Pattern Using Circular Characters with Charged Particle Beam Lithography - In the field of semiconductor production using shaped charged particle beam lithography, a method and system for fracturing or mask data preparation or proximity effect correction is disclosed, wherein a plurality of shots of circular or nearly-circular character projection characters, having at least two shots that overlap, can form a non-circular pattern on a surface. Methods for manufacturing a reticle and for manufacturing a substrate such as a silicon wafer by forming non-circular patterns on a surface using a plurality of circular or nearly-circular character projection shots, where at least two shots overlap, is also disclosed. | 02-09-2012 |
20120040279 | METHOD, DEVICE, AND SYSTEM FOR FORMING CIRCULAR PATTERNS ON A SURFACE - A stencil for character projection (CP) charged particle beam lithography and a method for manufacturing the stencil is disclosed, where the stencil contains two circular characters, where each character is capable of forming patterns on a surface in a range of sizes by using different dosages, and where the size ranges for the two characters is continuous. A method for forming circular patterns on a surface using variable-shaped beam (VSB) shots of different dosages is also disclosed. A method for forming circular patterns on a surface using a set of shots, where all of the shots comprise dosages, is also disclosed. | 02-16-2012 |
20120094219 | Method for Integrated Circuit Manufacturing and Mask Data Preparation Using Curvilinear Patterns - A method for manufacturing a semiconductor device is disclosed, wherein during the physical design process, a curvilinear path is designed to represent an interconnecting wire on the fabricated semiconductor device. A method for fracturing or mask data preparation (MDP) is also disclosed in which a manhattan path which is part of the physical design of an integrated circuit is modified to create a curvilinear pattern, and where a set of charged particle beam shots is generated, where the set of shots is capable of forming the curvilinear pattern on a resist-coated surface. | 04-19-2012 |
20130022929 | METHOD AND SYSTEM FOR MANUFACTURING A SURFACE USING SHAPED CHARGED PARTICLE BEAM LITHOGRAPHY - In the field of semiconductor production using shaped beam charged particle beam lithography, a pattern is formed on a surface by dragging a charged particle beam across the surface in a single extended shot to form a track. In some embodiments, the track may form a straight path, a curved path, or a perimeter of a curvilinear shape. In other embodiments, the width of the track may be altered by varying the velocity of the dragged beam. The techniques may be used for manufacturing an integrated circuit by dragging a charged particle beam across a resist-coated wafer to transfer a pattern to the wafer, or by dragging a charged particle beam across a reticle, where the reticle is used to manufacture a photomask which is then used to transfer a pattern to a wafer using an optical lithographic process. | 01-24-2013 |
20130122405 | METHOD FOR FORMING CIRCULAR PATTERNS ON A SURFACE - A method for fracturing or mask data preparation for shaped beam charged particle beam lithography is disclosed, in which a square or nearly-square contact or via pattern is input, and a set of charged particle beam shots is determined which will form a circular or nearly-circular pattern on a surface, where the area of the circular or nearly-circular pattern is within a pre-determined tolerance of the area of the input square or nearly-square contact or via pattern. Methods for forming a pattern on a surface and for manufacturing a semiconductor device are also disclosed. | 05-16-2013 |
20130122406 | METHOD FOR FRACTURING AND FORMING A PATTERN USING SHAPED BEAM CHARGED PARTICLE BEAM LITHOGRAPHY - In the field of semiconductor production using shaped charged particle beam lithography, a method and system for fracturing or mask data preparation or proximity effect correction is disclosed, wherein a series of curvilinear character projection shots are determined for a charged particle beam writer system, such that the set of shots can form a continuous track, possibly of varying width, on a surface. A method for forming a continuous track on a surface using a series of curvilinear character projection shots is also disclosed. Methods for manufacturing a reticle and for manufacturing a substrate such as a silicon wafer by forming a continuous track on a surface using a series of curvilinear character projection shots is also disclosed. | 05-16-2013 |
20130316273 | Method For Fracturing And Forming A Pattern Using Shaped Beam Charged Particle Beam Lithography - In the field of semiconductor production using shaped charged particle beam lithography, a method and system for fracturing or mask data preparation or proximity effect correction is disclosed, wherein a plurality of circular or nearly-circular shaped beam shots can form a non-circular pattern on a surface. Methods for manufacturing a reticle and for manufacturing a substrate such as a silicon wafer by forming non-circular patterns on a surface using a plurality of circular or nearly-circular shaped beam shots is also disclosed. | 11-28-2013 |
20140134523 | Method for Forming Circular Patterns on a Surface - A method for forming patterns on a surface using charged particle beam lithography is disclosed, in which a stencil is provided comprising first and second apertures, where circular or nearly-circular patterns in a first plurality of sizes are formed on the surface using the first aperture by varying shot dosage, and where circular or nearly-circular patterns in a second plurality of sizes are formed on the surface using the second aperture by varying shot dosage. A similar method for fracturing or mask data preparation is also disclosed. A stencil for charged particle beam lithography is also disclosed, where the stencil comprises first aperture and second apertures capable of forming, in one shot, patterns in a first and a second range of sizes on a surface by varying the shot dosage, where the first range of sizes is discontinuous with the second range of sizes. | 05-15-2014 |
20150082258 | Method for Forming Circular Patterns on a Surface - A method for fracturing or mask data preparation is disclosed, in which a set of shots is determined, where each shot will direct a circular or nearly-circular dosage pattern to a surface, where each shot comprises a shot dosage, and in which the set of shots is output. A method for forming patterns on a surface using charged particle beam lithography is also disclosed, in which a stencil is provided comprising one or more circular apertures, and where a plurality of circular patterns of different sizes are formed on the surface using a single aperture, by varying the shot dosage. | 03-19-2015 |