Patent application number | Description | Published |
20080197109 | Etch pattern definition using a CVD organic layer as an anti-reflection coating and hardmask - A multilayer antireflective hard mask structure is disclosed. The structure comprises: (a) a CVD organic layer, wherein the CVD organic layer comprises carbon and hydrogen; and (b) a dielectric layer over the CVD organic layer. The dielectric layer is preferably a silicon oxynitride layer, while the CVD organic layer preferably comprises 70-80% carbon, 10-20% hydrogen and 5-15% nitrogen. Also disclosed are methods of forming and trimming such a multilayer antireflective hard mask structure. Further disclosed are methods of etching a substrate structure using a mask structure that contains a CVD organic layer and optionally has a dielectric layer over the CVD organic layer. | 08-21-2008 |
20080257864 | Methods and devices to reduce defects in dielectric stack structures - A variety of techniques may be employed alone or in combination to reduce the incidence of defects arising in dielectric stack structures formed by chemical vapor deposition (CVD). Incidence of a first defect type attributable to reaction between an unreacted species of a prior CVD step and reactants of a subsequent CVD step, is reduced by exposing a freshly-deposited dielectric layer to a plasma before any additional layers are deposited. Incidence of a second defect type attributable to the presence of incompletely vaporized CVD liquid precursor material, is reduced by exposing the freshly-deposited dielectric layer to a plasma, and/or by continuing the flow of carrier gas through an injection valve for a period beyond the conclusion of the CVD step. | 10-23-2008 |
20090111281 | FREQUENCY DOUBLING USING A PHOTO-RESIST TEMPLATE MASK - A method for doubling the frequency of a lithographic process using a photo-resist template mask is described. A device layer having a photo-resist layer formed thereon is first provided. The photo-resist layer is patterned to form a photo-resist template mask. A spacer-forming material layer is deposited over the photo-resist template mask. The spacer-forming material layer is etched to form a spacer mask and to expose the photo-resist template mask. The photo-resist template mask is then removed and an image of the spacer mask is finally transferred to the device layer. | 04-30-2009 |
20100022100 | BI-LAYER CAPPING OF LOW-K DIELECTRIC FILMS - A method is provided for processing a substrate surface by delivering a first gas mixture comprising a first organosilicon compound, a first oxidizing gas, and one or more hydrocarbon compounds into a chamber at deposition conditions sufficient to deposit a first low dielectric constant film on the substrate surface. A second gas mixture having a second organosilicon compound and a second oxidizing gas is delivered into the chamber at deposition conditions sufficient to deposit a second low dielectric constant film on the first low dielectric constant film. The flow rate of the second oxidizing gas into the chamber is increased, and the flow rate of the second organosilicon compound into the chamber is decreased to deposit an oxide rich cap on the second low dielectric constant film. | 01-28-2010 |
20100075503 | INTEGRAL PATTERNING OF LARGE FEATURES ALONG WITH ARRAY USING SPACER MASK PATTERNING PROCESS FLOW - Embodiments of the present invention pertain to methods of forming patterned features on a substrate having an increased density (i.e. reduced pitch) as compared to what is possible using standard photolithography processing techniques using a single high-resolution photomask while also allowing both the width of the patterned features and spacing (trench width) between the patterned features to vary within an integrated circuit. | 03-25-2010 |
20100136792 | SELF-ALIGNED MULTI-PATTERNING FOR ADVANCED CRITICAL DIMENSION CONTACTS - Embodiments of the present invention pertain to methods of forming patterned features on a substrate having a reduced pitch in two dimensions as compared to what is possible using standard photolithography processing techniques using a single high-resolution photomask. A spacer layer is formed over a two-dimensional square grid of cores with a thickness chosen to leave a dimple at the center of four cores on the corners of a square. The spacer layer is etched back to reveal the substrate at the centers of the square. Removing the core material results in double the pattern density of the lithographically defined grid of cores. The regions of exposed substrate may be filled again with core material and the process repeated to quadruple the pattern density. | 06-03-2010 |
20110223773 | LOW TEMPERATURE PROCESS FOR DEPOSITING A HIGH EXTINCTION COEFFICIENT NON-PEELING OPTICAL ABSORBER FOR A SCANNING LASER SURFACE ANNEAL OF IMPLANTED DOPANTS - A plasma enhanced physical vapor deposition process deposits an amorphous carbon layer on an ion-implanted wafer for use in dynamic surface annealing of the wafer with an intense line beam of a laser wavelength. The deposition process is carried out at a wafer temperature below the dopant clustering threshold temperature, and includes introducing the wafer into a chamber having a carbon-containing target overlying the wafer, and furnishing a carrier gas into the chamber. The process further includes generating a wafer bias voltage and applying target source power to the carbon-containing target sufficient to produce ion bombardment of the carbon-containing target. The wafer bias voltage is set to a level at which the amorphous carbon layer that is deposited has a desired extinction coefficient at the laser wavelength. | 09-15-2011 |
Patent application number | Description | Published |
20140147700 | RESIST FORTIFICATION FOR MAGNETIC MEDIA PATTERNING - A method and apparatus for forming magnetic media substrates is provided. A patterned resist layer is formed on a substrate having a magnetically susceptible layer. A conformal protective layer is formed over the patterned resist layer to prevent degradation of the pattern during subsequent processing. The substrate is subjected to an energy treatment wherein energetic species penetrate portions of the patterned resist and conformal protective layer according to the pattern formed in the patterned resist, impacting the magnetically susceptible layer and modifying a magnetic property thereof. The patterned resist and conformal protective layers are then removed, leaving a magnetic substrate having a pattern of magnetic properties with a topography that is substantially unchanged. | 05-29-2014 |
20140162414 | TECHNIQUE FOR SELECTIVELY PROCESSING THREE DIMENSIONAL DEVICE - A method to selectively process a three dimensional device, comprising providing a substrate having a first surface that extends horizontally, the substrate comprising a structure containing a second surface that extends vertically from the first surface; providing a film on the substrate, the film comprising carbon species; and etching a selected portion of the film by exposing the selected portion of the film to an etchant containing hydrogen species, where the etchant excludes oxygen species and fluorine species. | 06-12-2014 |
20140263172 | RESIST HARDENING AND DEVELOPMENT PROCESSES FOR SEMICONDUCTOR DEVICE MANUFACTURING - In some embodiments, a method of forming an etch mask on a substrate is provided that includes (1) forming a resist layer on a substrate; (2) exposing one or more regions of the resist layer to an energy source so as to alter at least one of a physical property and a chemical property of the exposed regions; (3) performing a hardening process on the resist layer to increase the etch resistance of first regions of the resist layer relative to second regions of the resist layer, the hardening process including exposing the resist layer to one or more reactive species within an atomic layer deposition (ALD) chamber; and (4) dry etching the resist layer to remove the one or more second regions and to form a pattern in the resist layer. Other embodiments are provided. | 09-18-2014 |
20140327117 | OPTICALLY TUNED HARDMASK FOR MULTI-PATTERNING APPLICATIONS - The embodiments herein provides methods for forming a PVD silicon oxide or silicon rich oxide, or PVD SiN or silicon rich SiN, or SiC or silicon rich SiC, or combination of the preceding including a variation which includes controlled doping of hydrogen into the compounds heretofore referred to as SiO | 11-06-2014 |