Patent application number | Description | Published |
20080199784 | Small Feature Integrated Circuit Fabrication - A method for controlling etching during photolithography in the fabrication of an integrated circuit in connection with first and second features that are formed on the integrated circuit having a gap there between comprising depositing a layer of photoresist on the integrated circuit, selectively exposing portions of the photoresist through at least one photolithography mask having a pattern including means for alleviating line end shortening of the first and second lines adjacent the gap, and developing the photoresist after the selective exposing step. | 08-21-2008 |
20080283927 | Tunable stressed polycrystalline silicon on dielectrics in an integrated circuit - System and method for creating stressed polycrystalline silicon in an integrated circuit. A preferred embodiment comprises manufacturing an integrated circuit, comprising forming a trench in an integrated circuit substrate, forming a cavity within the integrated circuit substrate, wherein the cavity is linked to the trench, depositing a dielectric layer within the cavity, and depositing polycrystalline silicon over the dielectric layer, wherein an inherent stress is induced in the polycrystalline silicon that grows on the dielectric layer. The dielectric layer may be, for example, silicon aluminum oxynitride (SiAlON), mullite (3Al | 11-20-2008 |
20090023078 | Lithography Masks and Methods of Manufacture Thereof - Lithography masks and methods of manufacture thereof are disclosed. For example, a method of manufacturing a lithography mask includes forming a stack over a substrate. The stack includes bottom attenuated phase shift material layers, intermediate opaque material layers, and finally top resist layers. The method further includes patterning the stack and then trimming the resist layers to uncover a portion of the opaque material layers. The uncovered opaque material layers are subsequently etched followed by removal of any remaining resist layers. | 01-22-2009 |
20090091729 | Lithography Systems and Methods of Manufacturing Using Thereof - Lithography systems and methods of manufacturing semiconductor devices are disclosed. For example, a lithography system includes at least two reticle stages and a common projection lens system disposed between the reticle stages and a wafer stage, and at least one alignment system for aligning the reticle stages. | 04-09-2009 |
20090092926 | Lithography Systems and Methods of Manufacturing Using Thereof - Multi-beam lithography systems and methods of manufacturing semiconductor devices using the same are disclosed. For example, the method utilizes non-coincidence of boundaries of electrical fields emanating from chrome on glass or phase shifted mask features distributed over two masks for the optimization of lithographic process windows, side lobe suppression, or pattern orientation dependent process window optimization employing one mask with polarization rotating film on the backside. | 04-09-2009 |
20090200583 | Feature Patterning Methods - Methods of patterning features of semiconductor devices and methods of processing and fabricating semiconductor devices are disclosed. In one embodiment, a method of processing a semiconductor device includes forming first sidewall spacers on a first hard mask, removing the first hard mask, and forming a first material layer over the first sidewall spacers. A second hard mask is formed over the first material layer and the first sidewall spacers. Second sidewall spacers are formed on the second hard mask, and the second hard mask is removed. At least the first sidewall spacers are patterned using the second sidewall spacers as a mask. | 08-13-2009 |
20100120177 | Feature Dimension Control in a Manufacturing Process - A method for manufacturing a semiconductor device is disclosed including determining a dimension or other physical characteristic of a pattern in a layer of material that is disposed on a workpiece, and etching the layer of material using information that is related to the dimension. A system is also disclosed for manufacturing a semiconductor device including a first etch system configured to etch a layer to define a pattern in the layer, and a second etch system configured to measure a physical characteristic of the pattern, determine an etch control parameter based on the physical characteristic, and etch the layer in accordance with the etch control parameter. | 05-13-2010 |
20100128270 | Alignment Marks for Polarized Light Lithography and Method for Use Thereof - Mark and method for integrated circuit fabrication with polarized light lithography. A preferred embodiment comprises a first plurality of elements comprised of a first component type, wherein the first component type has a first polarization, and a second plurality of elements comprised of a second component type, wherein the second component type has a second polarization, wherein the first polarization and the second polarization are orthogonal, wherein adjacent elements are of different component types. The alignment marks can be used in an intensity based or a diffraction based alignment process. | 05-27-2010 |
20100272967 | METHOD OF FORMING A PATTERN OF AN ARRAY OF SHAPES INCLUDING A BLOCKED REGION - A second photoresist having a second photosensitivity is formed on a substrate. A first photoresist having a first photosensitivity, which is greater than second photosensitivity, is formed on the second photoresist. Preferably, the first photoresist is a gray resist that becomes transparent upon exposure. At least one portion of the first photoresist is lithographically exposed employing a first reticle having a first pattern to form at least one transparent lithographically exposed resist portion, while the second photoresist remains intact. The second photoresist is lithographically exposed employing a second reticle including a second pattern to form a plurality of lithographically exposed shapes in the second photoresist. The plurality of lithographically exposed shapes have a composite pattern which is the derived from the second pattern by limiting the second pattern only within the area of the at least one transparent lithographically exposed resist pattern. | 10-28-2010 |
20100283052 | Metrology Systems and Methods for Lithography Processes - Metrology systems and methods for lithography processes are disclosed. In one embodiment, a method of manufacturing a semiconductor device includes providing a mask having a plurality of corner rounding test patterns formed thereon. A first semiconductor device is provided, and a layer of photosensitive material of the first semiconductor device is patterned with a plurality of corner rounding test features using the mask and a lithography process. An amount of corner rounding of the lithography process is measured by analyzing the plurality of corner rounding test features relative to other of the plurality of corner rounding test features formed on the layer of photosensitive material of the semiconductor device. The lithography process or the mask is altered in response to the amount of corner rounding measured, and a second semiconductor device is provided. The second semiconductor device is affected using the altered lithography process or the altered mask. | 11-11-2010 |
20100297398 | Lithography Masks and Methods of Manufacture Thereof - Lithography masks and methods of manufacture thereof are disclosed. A preferred embodiment comprises a method of manufacturing a lithography mask. The method includes providing a substrate, forming a first pattern in a first region of the substrate, and forming a second pattern in a second region of the substrate, the second pattern comprising patterns for features oriented differently than patterns for features of the first pattern. The method includes affecting a polarization rotation of light differently in the first region than in the second region of the substrate. | 11-25-2010 |
20110031563 | Method for Manufacturing a Semiconductor Device Having Doped and Undoped Polysilicon Layers - Various illustrative embodiments of methods for manufacturing a semiconductor device are described. These methods may include, for example, forming a first polysilicon layer above a substrate, wherein the first polysilicon layer comprises a doped portion, and forming a second polysilicon layer over a surface of the first polysilicon layer. Also, various illustrative embodiments of semiconductor devices are described that may be manufactured such as by the various methods described herein. | 02-10-2011 |
20110089501 | Tunable Stressed Polycrystalline Silicon on Dielectrics in an Integrated Circuit - A method of forming an integrated circuit device is disclosed. A polycrystalline silicon layer is formed in direct contact with a dielectric material so that the dielectric material induces a stress in the polycrystalline silicon layer as the polycrystalline silicon layer is formed. A MOS transistor that includes a gate comprising the polycrystalline silicon is then completed. | 04-21-2011 |
20110250530 | Semiconductor Devices and Methods of Manufacturing Thereof - Semiconductor devices and methods of manufacturing thereof are disclosed. A plurality of features is formed on a workpiece, the plurality of features being located in a first region and a second region of the workpiece. Features in the first region have a first lateral dimension, and features in the second region have a second lateral dimension, wherein the second lateral dimension is greater than the first lateral dimension. The first region is masked, and the second lateral dimension of features in the second region is reduced. | 10-13-2011 |
20120013884 | Metrology Systems and Methods for Lithography Processes - Metrology systems and methods for lithography processes are disclosed. In one embodiment, a method of manufacturing a semiconductor device includes providing a mask having a plurality of corner rounding test patterns formed thereon. A first semiconductor device is provided, and a layer of photosensitive material of the first semiconductor device is patterned with a plurality of corner rounding test features using the mask and a lithography process. An amount of corner rounding of the lithography process is measured by analyzing the plurality of corner rounding test features relative to other of the plurality of corner rounding test features formed on the layer of photosensitive material of the semiconductor device. The lithography process or the mask is altered in response to the amount of corner rounding measured, and a second semiconductor device is provided. The second semiconductor device is affected using the altered lithography process or the altered mask. | 01-19-2012 |
20120083108 | Transistor Level Routing - A system and a method for transistor level routing are disclosed. The method comprises forming a high-k dielectric layer over a substrate, forming a metal layer directly over the high-k dielectric layer, and selectively disposing a semiconductive layer over the metal layer. The method further comprises forming a first transistor in a first region and a second transistor in a second region spaced from the first region, the first and second transistor having gate stacks comprising a high-k dielectric layer, a metal layer and a semiconductive layer, and forming an electrical connection between the first transistor and the second transistor comprising the high-k dielectric layer and the metal layer but not the semiconductive layer. | 04-05-2012 |
20120179282 | System and Method for Semiconductor Device Fabrication Using Modeling - In one embodiment, a method of manufacturing a semiconductor device includes using a processor to generate a first three dimensional (3-D) resist profile for a first process condition using an layout mask of a target structure. The method further includes using a processor to generate a second 3-D resist profile for a second process condition using the layout mask. The first process condition includes a plurality of process variables, and the second process condition includes different values of the plurality of process variables than the first process condition. The method includes generating a 3-D process variable (PV) band profile by combining the first 3-D resist profile with the second 3-D resist profile and displaying a 3-D image of the 3-D PV band profile on a display. | 07-12-2012 |
20120208341 | Alignment Marks for Polarized Light Lithography and Method for Use Thereof - Mark and method for integrated circuit fabrication with polarized light lithography. A preferred embodiment comprises a first plurality of elements comprised of a first component type, wherein the first component type has a first polarization, and a second plurality of elements comprised of a second component type, wherein the second component type has a second polarization, wherein the first polarization and the second polarization are orthogonal, wherein adjacent elements are of different component types. The alignment marks can be used in an intensity based or a diffraction based alignment process. | 08-16-2012 |