Patent application number | Description | Published |
20080299728 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A semiconductor device manufacturing method includes: forming a sidewall spacer on a sidewall surface of a gate electrode; forming a pair of second conductive type source and drain regions in an active region; covering top surfaces of a semiconductor layer, a device isolation region, the sidewall spacer and the gate electrode with a metal film; reducing resistance of the source and drain regions and the gate electrode partially by making the metal film react with the semiconductor layer and the gate electrode; and removing an unreacted portion of the metal film and the sidewall spacer simultaneously by using an etchant which readily etches the unreacted portion of the metal film and the sidewall spacer while hardly etching the device isolation region, resistance-reduced portions of the gate electrode and resistance-reduced portions of the source and drain regions. | 12-04-2008 |
20090181550 | Film formation method and apparatus for semiconductor process - A film formation process is performed to form a silicon nitride film on a target substrate within a process field configured to be selectively supplied with a first process gas containing a silane family gas and a second process gas containing a nitriding gas. The method is preset to compose the film formation process of a main stage with an auxiliary stage set at one or both of beginning and ending of the film formation process. The main stage includes an excitation period of supplying the second process gas to the process field while exciting the second process gas by an exciting mechanism. The auxiliary stage includes no excitation period of supplying the second process gas to the process field while exciting the second process gas by the exciting mechanism. | 07-16-2009 |
20090191722 | Film formation method and apparatus for semiconductor process - A film formation method is used for forming a silicon nitride film on a target substrate by repeating a plasma cycle and a non-plasma cycle a plurality of times, in a process field configured to be selectively supplied with a first process gas containing a silane family gas and a second process gas containing a nitriding gas and communicating with an exciting mechanism for exciting the second process gas to be supplied. The method includes obtaining a relation formula or relation table that represents relationship of a cycle mixture manner of the plasma cycle and the non-plasma cycle relative to a film quality factor of the silicon nitride film; determining a specific manner of the cycle mixture manner based on a target value of the film quality factor with reference to the relation formula or relation table; and arranging the film formation process in accordance with the specific manner. | 07-30-2009 |
20100112496 | PATTERNING METHOD - A patterning method comprises a step for forming a first film on a substrate, a step for forming a multilayer film including a resist film on the first film, a step for patterning the resist film by photolithography to form a patterned resist film having a predetermined pattern, a step for forming an silicon oxide film different from the first film on the patterned resist film and the first film by supplying a first gas containing an organic silicon and a second gas containing an activated oxygen species alternately to the substrate, a step for etching the silicon oxide film to form a sidewall spacer on the sidewall of the patterned resist film, a step for removing the patterned resist film, and a step for processing the first film by using the sidewall spacer as a mask. | 05-06-2010 |
20100112796 | PATTERNING METHOD - Disclosed is a patterning method including: forming, on a thin film, a sacrificial film made of a material different from that of the thin film and made of SiBN; processing the sacrificial film into a pattern having a preset interval by using a photolithography technique; forming, on sidewalls of the processed sacrificial film, sidewall spacers made of a material different from those of the sacrificial film and the thin film; removing the processed sacrificial film; and processing the thin film by using the sidewall spacers as a mask. | 05-06-2010 |
20100130015 | PATTERNING METHOD - Disclosed is a patterning method including: forming a first film on a substrate; forming a first resist film on the first film; processing the first resist film into a first resist pattern having a preset pitch by photolithography; forming a silicon oxide film on the first resist pattern and the first film by alternately supplying a first gas containing organic silicon and a second gas containing an activated oxygen species to the substrate; forming a second resist film on the silicon oxide film; processing the second resist film into a second resist pattern having a preset pitch by the photolithography; and processing the first film by using the first resist pattern and the second resist pattern as a mask. | 05-27-2010 |
20110237082 | MICRO PATTERN FORMING METHOD - There is provided a micro pattern forming method including forming a thin film on a substrate; forming a film serving as a mask when processing the thin film; processing the film serving as a mask into a pattern including lines having a preset pitch; trimming the pattern including the lines; and forming an oxide film on the pattern including the lines and on the thin film by alternately supplying a source gas and an activated oxygen species. Here, the process of trimming the pattern and the process of forming an oxide film are consecutively performed in a film forming apparatus configured to form the oxide film. | 09-29-2011 |
20120267340 | FILM DEPOSITION METHOD AND FILM DEPOSITION APPARATUS - A disclosed film deposition method includes steps of loading plural substrates each of which includes a pattern including a concave part in a reaction chamber in the form of shelves; depositing a silicon oxide film on the plural substrates by supplying a silicon-containing gas and an oxygen-containing gas to the reaction chamber; etching the silicon oxide film deposited on the plural substrates in the step of depositing by supplying a fluorine-containing gas and an ammonia gas to the reaction chamber; and alternately repeating the step of depositing and the step of etching. | 10-25-2012 |
20130213301 | MASK PATTERN FORMING METHOD, FINE PATTERN FORMING METHOD, AND FILM DEPOSITION APPARATUS - In a mask pattern forming method, a resist film is formed over a thin film, the resist film is processed into resist patterns having a predetermined pitch by photolithography, slimming of the resist patterns is performed, and an oxide film is formed on the thin film and the resist patterns after an end of the slimming step in a film deposition apparatus by supplying a source gas and an oxygen radical or an oxygen-containing gas. In the mask pattern forming method, the slimming and the oxide film forming are continuously performed in the film deposition apparatus. | 08-22-2013 |
20140020626 | FILM CRACK DETECTING APPARATUS AND FILM FORMING APPARATUS - Provided is a film crack detecting apparatus capable of recognizing a possibility of occurrence of particles in real time by detecting film cracks of an unnecessary film adhered to a probe unit provided in a processing container. The film crack detecting apparatus is provided in a film forming apparatus, which includes a processing container configured to accommodate an object to be processed and forms a thin film on a surface of the object, to perform a film crack detection operation. The film crack detecting apparatus includes a probe unit installed within the processing container, an elastic wave detecting unit attached to an end of the probe unit to detect an elastic wave, and a determination unit configured to determine whether the maintenance of the processing container is necessary based on a detection result of the elastic wave detecting unit. | 01-23-2014 |