Patent application number | Description | Published |
20090261479 | METHODS FOR PITCH REDUCTION - An integrated circuit described herein includes a substrate and a plurality of lines overlying the substrate. The lines define a plurality of first trenches and a plurality of second trenches. The plurality of first trenches extend into the substrate a distance different than that of the plurality of second trenches. Adjacent pairs of lines are separated by a first trench in the plurality of first trenches, and each pair of lines comprises a first line and a second line defining a corresponding second trench in the plurality of second trenches. | 10-22-2009 |
20090286364 | METHODS OF LOW TEMPERATURE OXIDATION - A method for forming a dielectric is provided. The method includes providing a substrate having a silicon-containing semiconductor layer within a process chamber. The process chamber is capable of ionizing a process precursor to a plasma comprising an oxygen-containing element and a fluorocarbon-containing element. A surface portion of the silicon-containing material is oxidized by using the plasma to convert the surface portion into an oxidized dielectric material. | 11-19-2009 |
20100206230 | METHODS OF LOW TEMPERATURE OXIDATION - An apparatus for forming a dielectric layer includes a process chamber configured for disposing a substrate therein, a gas inlet for delivering a mixture gas to the process chamber, and an RF generator for producing a plasma from the mixture gas. The plasma includes an oxygen-containing element and a fluorocarbon-containing element. The apparatus also has a heating element configured for maintaining the chamber temperature at a desired process temperature, for example, at 800° C. or lower, and a connector to a vacuum pump for maintaining a process pressure. The apparatus is configured for using the plasma to convert a surface portion of the substrate into an oxidized dielectric material. | 08-19-2010 |
20100276807 | FABRICATION OF METAL FILM STACKS HAVING IMPROVED BOTTOM CRITICAL DIMENSION - A method of fabricating metal film stacks is described that reduces or eliminates adverse effects of photolithographic misalignments. A bottom critical dimension is increased by removal of a bottom titanium nitride barrier. | 11-04-2010 |
20100295147 | ISOLATION STRUCTURE AND FORMATION METHOD THEREOF - An isolation structure comprising a substrate is provided. A trench is in the substrate. A sidewall of the trench has a first inclined surface and a second inclined surface. The first inclined surface is located on the second inclined surface. The slope of the first inclined surface is different from the slope of the second inclined surface. A length of the first inclined surface is greater than 15 nanometers. | 11-25-2010 |
20120104630 | Methods for Pitch Reduction - An integrated circuit described herein includes a substrate and a plurality of lines overlying the substrate. The lines define a plurality of first trenches and a plurality of second trenches. The plurality of first trenches extend into the substrate a distance different than that of the plurality of second trenches. Adjacent pairs of lines are separated by a first trench in the plurality of first trenches, and each pair of lines comprises a first line and a second line defining a corresponding second trench in the plurality of second trenches. | 05-03-2012 |
20120115304 | ISOLATION STRUCTURE AND FORMATION METHOD THEREOF - An isolation structure comprising a substrate is provided. A trench is in the substrate. A sidewall of the trench has a first inclined surface and a second inclined surface. The first inclined surface is located on the second inclined surface. The slope of the first inclined surface is different from the slope of the second inclined surface. A length of the first inclined surface is greater than 15 nanometers. | 05-10-2012 |
20140167206 | SHALLOW TRENCH ISOLATION STRUCTURE AND METHOD OF MANUFACTURE - A semiconductor device includes a substrate and a first and second plurality of stack structures arranged over the substrate. The first and second plurality of stack structures are separated by a gap. The substrate includes a first trench between the structures of the first plurality of stack structures, a second trench between the structures of the second plurality of stack structures, and a third trench in the gap. A depth of the first trench is less than a depth of the third trench. | 06-19-2014 |