Patent application number | Description | Published |
20140252559 | Multiple Edge Enabled Patterning - Provided is an alignment mark having a plurality of sub-resolution elements. The sub-resolution elements each have a dimension that is less than a minimum resolution that can be detected by an alignment signal used in an alignment process. Also provided is a semiconductor wafer having first, second, and third patterns formed thereon. The first and second patterns extend in a first direction, and the third pattern extend in a second direction perpendicular to the first direction. The second pattern is separated from the first pattern by a first distance measured in the second direction. The third pattern is separated from the first pattern by a second distance measured in the first direction. The third pattern is separated from the second pattern by a third distance measured in the first direction. The first distance is approximately equal to the third distance. The second distance is less than twice the first distance. | 09-11-2014 |
20140256107 | High Gate Density Devices and Methods - A method of forming a semiconductor device includes providing a semiconductor substrate and forming a plurality of dummy gate structures in the substrate. The method further includes forming sidewall spacers on sidewalls of the dummy gate structures and forming a plurality of epitaxial growth regions between the dummy gate structures. After forming the plurality of epitaxial growth regions, one of the dummy gate structures is removed to form an isolation trench, which is filled with a dielectric layer to form an isolation feature. The remaining dummy gate structures are removed to form gate trenches, and gate structures are formed in the gate trenches. | 09-11-2014 |
20140273442 | Spacer Etching Process For Integrated Circuit Design - A method of forming a target pattern includes forming a first material layer on a substrate; performing a first patterning process using a first layout to form a first plurality of trenches in the first material layer; performing a second patterning process using a second layout to form a second plurality of trenches in the first material layer; forming spacer features on sidewalls of both the first plurality of trenches and the second plurality of trenches, the spacer features having a thickness; removing the first material layer; etching the substrate using the spacer features as an etch mask; and thereafter removing the spacer features. The target pattern is to be formed with the first layout and the second layout. | 09-18-2014 |
20140367785 | Method of Fabricating a FinFET Device - A semiconductor device includes a substrate and a plurality of fin structures. A first fin structure and a second fin structure are spaced at a distance D | 12-18-2014 |
20150147867 | Method Of Making a FinFET Device - A method of fabricating a fin-like field-effect transistor (FinFET) device is disclosed. A plurality of mandrel features are formed on a substrate. First spacers are formed along sidewalls of the mandrel feature and second spacers are along sidewalls of the first spacers. Two back-to-back adjacent second spacers separate by a gap in a first region and merge together in a second region of the substrate. A dielectric feature is formed in the gap and a dielectric mesa is formed in a third region of the substrate. A first subset of the first spacer is removed in a first cut. Fins and trenches are formed by etching the substrate using the first spacer and the dielectric feature as an etch mask. | 05-28-2015 |
20150179435 | Method For Integrated Circuit Patterning - A method of forming a target pattern includes forming a plurality of lines over a substrate with a first mask and forming a first spacer layer over the substrate, over the plurality of lines, and onto sidewalls of the plurality of lines. The plurality of lines is removed, thereby providing a patterned first spacer layer over the substrate. The method further includes forming a second spacer layer over the substrate, over the patterned first spacer layer, and onto sidewalls of the patterned first spacer layer, and forming a patterned material layer over the second spacer layer with a second mask. Whereby, the patterned material layer and the second spacer layer collectively define a plurality of trenches. | 06-25-2015 |
20150270129 | PATTERNING METHOD FOR SEMICONDUCTOR DEVICE FABRICATION - A method includes forming a first pattern having a first feature of a first material on a semiconductor substrate. A second pattern with a second feature and third feature of a second material, interposed by the first feature, is formed on the semiconductor substrate. Spacer elements then are formed on sidewalls of the first feature, the second feature, and the third feature. After forming the spacer elements, the second material comprising the second and third features is selectively removed to form a first opening and a second opening. The first feature, the first opening and the second opening are used as a masking element to etch the target layer. | 09-24-2015 |
20150287635 | METHOD OF PATTERNING A FEATURE OF A SEMICONDUCTOR DEVICE - A method including forming a trench over a layer disposed on a semiconductor substrate. The trench is filled with a first material to form a filled trench. A feature of a second material is formed over the filled trench. The feature is disposed over the filled trench and extends along two opposing sidewalls of the filled trench to a top surface of the layer. The feature is then planarized to expose a top surface of the filled trench and provide a first portion of the feature adjacent a first sidewall of the two opposing sidewalls of the filled trench and a second portion of the feature adjacent a second sidewall of the two opposing sidewalls of the filled trench. The first and second portions of the feature are used to define a dimension of an interconnect feature disposed over the semiconductor substrate. | 10-08-2015 |