Patent application number | Description | Published |
20080216077 | SOFTWARE SEQUENCER FOR INTEGRATED SUBSTRATE PROCESSING SYSTEM - Embodiments of the invention generally provide apparatus and method for scheduling a process sequence to achieve maximum throughput and process consistency in a cluster tool having a set of constraints. One embodiment of the present invention provides a method for scheduling a process sequence comprising determining an initial individual schedule by assigning resources to perform the process sequence, calculating a fundamental period, detecting resource conflicts in a schedule generated from the individual schedule and the fundamental period, and adjusting the individual schedule to remove the resource conflicts. | 09-04-2008 |
20090029528 | METHOD AND APPARATUS FOR CLEANING A SUBSTRATE SURFACE - The present invention generally provides apparatus and method for forming a clean and damage free surface on a semiconductor substrate. One embodiment of the present invention provides a system that contains a cleaning chamber that is adapted to expose a surface of substrate to a plasma cleaning process prior to forming an epitaxial layer thereon. In one embodiment, a method is employed to reduce the contamination of a substrate processed in the cleaning chamber by depositing a gettering material on the inner surfaces of the cleaning chamber prior to performing a cleaning process on a substrate. In one embodiment, oxidation and etching steps are repeatedly performed on a substrate in the cleaning chamber to expose or create a clean surface on a substrate that can then have an epitaxial placed thereon. In one embodiment, a low energy plasma is used during the cleaning step. | 01-29-2009 |
20090030632 | METHODS FOR PLASMA MATCHING BETWEEN DIFFERENT CHAMBERS AND PLASMA STABILITY MONITORING AND CONTROL - Methods for matching semiconductor plasma processing chambers using a calibrated spectrometer are disclosed. In one embodiment, plasma attributes are measured for a process in a reference chamber and a process in a sample chamber. Measuring the plasma attributes during process perturbations allows for the correlation of process parameters to the plasma optical emission spectra. The process parameters can then be adjusted to yield a processed substrate which matches that of the reference chamber. Methods for monitoring the stability of a plasma processing chamber using a calibrated spectrometer are also disclosed. | 01-29-2009 |
20090035927 | METHOD OF FORMING DIELECTRIC LAYERS ON A SUBSTRATE AND APPARATUS THEREFOR - Methods of forming dielectric layers on a substrate comprising silicon and oxygen are disclosed herein. In some embodiments, a method of forming a dielectric layer on a substrate includes provide a substrate having an exposed silicon oxide layer; treating an upper surface of the silicon oxide layer with a plasma; and depositing a silicon nitride layer on the treated silicon oxide layer via atomic layer deposition. The silicon nitride layer may be exposed to a plasma nitridation process. The silicon oxide and silicon nitride layers may be subsequently thermally annealed. The dielectric layers may be used as part of a gate structure. | 02-05-2009 |
20090311877 | POST OXIDATION ANNEALING OF LOW TEMPERATURE THERMAL OR PLASMA BASED OXIDATION - Embodiments of the present invention provide methods of forming oxide layers on semiconductor substrates. In some embodiments, a method of forming an oxide layer on a semiconductor substrate includes forming an oxide layer on a substrate using an oxidation process having a first process gas at a first temperature less than about 800 degrees Celsius; and annealing the oxide layer formed on the substrate in the presence of a second process gas and at a second temperature. The oxidation process may be a plasma or thermal oxidation process performed at a temperature of about 800 degrees Celsius or below. In some embodiments, the post oxidation annealing process may be a spike or soak rapid thermal process, a laser anneal, or a flash anneal performed at a temperature of at least about 700 degrees Celsius, at least about 800 degrees Celsius, or at least about 950 degrees Celsius. | 12-17-2009 |
20100062603 | SEMICONDUCTOR DEVICES SUITABLE FOR NARROW PITCH APPLICATIONS AND METHODS OF FABRICATION THEREOF - Semiconductor devices suitable for narrow pitch applications and methods of fabrication thereof are described herein. In some embodiments, a semiconductor device may include a floating gate having a first width proximate a base of the floating gate that is greater than a second width proximate a top of the floating gate. In some embodiments, a method of shaping a material layer may include (a) oxidizing a surface of a material layer to form an oxide layer at an initial rate; (b) terminating formation of the oxide layer when the oxidation rate is about 90% or below of the initial rate; (c) removing at least some of the oxide layer by an etching process; and (d) repeating (a) through (c) until the material layer is formed to a desired shape. In some embodiments, the material layer may be a floating gate of a semiconductor device. | 03-11-2010 |
20100248435 | METHOD OF SELECTIVE NITRIDATION - Methods of forming semiconductor devices are provided herein. In some embodiments, a method of forming a semiconductor device may include providing a substrate having an oxide surface and a silicon surface; forming a nitrogen-containing layer on exposed portions of both the oxide and silicon surfaces; and oxidizing the nitrogen-containing layer to selectively remove the nitrogen-containing layer from atop the oxide surface. In some embodiments, an oxide layer is formed atop a remaining portion of the nitrogen-containing layer formed on the silicon feature. In some embodiments, the oxide surface is an exposed surface of a shallow trench isolate region (STI) disposed adjacent to one or more floating gates of a semiconductor device. In some embodiments, the silicon surface is an exposed surface of a silicon or polysilicon floating gate of a semiconductor device. | 09-30-2010 |
20100248497 | METHODS AND APPARATUS FOR FORMING NITROGEN-CONTAINING LAYERS - Methods and apparatus for forming nitrogen-containing layers are provided herein. In some embodiments, a method includes placing a substrate having a first layer disposed thereon on a substrate support of a process chamber; heating the substrate to a temperature of at least about 250 degrees Celsius; and exposing the first layer to a radio frequency (RF) plasma formed from a process gas comprising nitrogen while maintaining the process chamber at a pressure of about 10 mTorr to about 40 mTorr to transform at least an upper portion of the first layer into a nitrogen-containing layer. In some embodiments, the process gas includes ammonia (NH | 09-30-2010 |
20100270609 | Modification of charge trap silicon nitride with oxygen plasma - A flash memory device comprises a substrate comprising silicon with a silicon dioxide layer thereon. A silicon-oxygen-nitrogen layer is on the silicon dioxide layer, and the silicon-oxygen-nitrogen layer comprises a shaped concentration level profile of oxygen through the thickness of the layer. A blocking dielectric layer is on the silicon-oxygen-nitrogen layer, and a gate electrode is on the blocking dielectric layer. Oxygen ions can be implanted into a silicon nitride layer to form the silicon-oxygen-nitrogen layer. | 10-28-2010 |
20100317186 | ENHANCING NAND FLASH FLOATING GATE PERFORMANCE - Embodiments described herein generally relate to flash memory devices and methods for manufacturing flash memory devices. In one embodiment, a method for selective removal of nitrogen from the nitrided areas of a substrate is provided. The method comprises positioning a substrate comprising a material layer disposed adjacent to an oxide containing layer in a processing chamber, exposing the substrate to a nitridation process to incorporate nitrogen onto the material layer and the exposed areas of the oxide containing layer, and exposing the nitrided material layer and the nitrided areas of the oxide containing layer to a gas mixture comprising a quantity of a hydrogen containing gas and a quantity of an oxygen containing gas to selectively remove nitrogen from the nitrided areas of the oxide containing layer relative to the nitrided material layer using a radical oxidation process. | 12-16-2010 |
20110263103 | METHOD AND APPARATUS FOR CLEANING A SUBSTRATE SURFACE - Embodiments described herein provide methods for processing a substrate. One embodiment comprises positioning a substrate in a processing region of a processing chamber, exposing a surface of the substrate disposed in the processing chamber to an oxygen containing gas to form a first oxygen containing layer on the surface, removing at least a portion of the first oxygen containing layer to expose at least a portion of the surface of the substrate, and exposing the surface of the substrate to an oxygen containing gas to form a second oxygen containing layer on the surface. | 10-27-2011 |
20110281442 | METHODS AND APPARATUS FOR FORMING NITROGEN-CONTAINING LAYERS - Methods and apparatus for forming nitrogen-containing layers are provided herein. In some embodiments, a method of forming a nitrogen-containing layer may include placing a substrate having a first layer disposed thereon on a substrate support of a process chamber; heating the substrate to a temperature of at least about 250 degrees Celsius; and exposing the first layer to a radio frequency (RF) plasma formed from a process gas consisting essentially of ammonia (NH | 11-17-2011 |
20130012032 | NH3 CONTAINING PLASMA NITRIDATION OF A LAYER ON A SUBSTRATE - Methods and apparatus for forming nitrogen-containing layers are provided herein. In some embodiments, a method includes exposing a first layer of a substrate to a plasma formed from a process gas comprising predominantly a mixture of ammonia (NH | 01-10-2013 |
20130210240 | METHODS AND APPARATUS FOR SELECTIVE OXIDATION OF A SUBSTRATE - Methods and apparatus for improving selective oxidation against metals in a process chamber are provided herein. In some embodiments, a method of oxidizing a first surface of a substrate disposed in a process chamber having a processing volume defined by one or more chamber walls may include exposing the substrate to an oxidizing gas to oxidize the first surface; and actively heating at least one of the one or more chamber walls to increase a temperature of the one or more chamber walls to a first temperature of at least the dew point of water while exposing the substrate to the oxidizing gas. | 08-15-2013 |
20140099795 | METHODS AND APPARATUS FOR PROCESSING SUBSTRATES USING AN ION SHIELD - Methods and apparatus for processing a substrate are provided. In some embodiments, a method of processing a substrate having a first layer may include disposing a substrate atop a substrate support in a lower processing volume of a process chamber beneath an ion shield having a bias power applied thereto, the ion shield comprising a substantially flat member supported parallel to the substrate support, and a plurality of apertures formed through the flat member, wherein the ratio of the aperture diameter to the thickness flat member ranges from about 10:1-1:10; flowing a process gas into an upper processing volume above the ion shield; forming a plasma from the process gas within the upper processing volume; treating the first layer with neutral radicals that pass through the ion shield; and heating the substrate to a temperature of up to about 550 degrees Celsius while treating the first layer. | 04-10-2014 |