Patent application number | Description | Published |
20080213479 | SiCN film formation method and apparatus - A method for forming an SiCN film on a target substrate in a process field is arranged to perform a plurality of cycles. Each cycle includes a first step of performing supply of a first process gas containing a silane family gas; a second step of performing supply of a second process gas containing a nitriding gas; a third step of performing supply of a third process gas containing a carbon hydride gas; and a fourth step of shutting off supply of the first process gas. Each cycle is arranged not to turn any one of the first, second, and third process gases into plasma outside the process field during supply thereof, but to heat the process field to a first temperature, at which the silane family gas, the nitriding gas, and the carbon hydride gas react with each other. | 09-04-2008 |
20080311760 | Film formation method and apparatus for semiconductor process - A silicon nitride film is formed on a target substrate by performing a plurality of cycles 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. Each of the cycles includes a first supply step of performing supply of the first process gas while maintaining a shut-off state of supply of the second process gas, and a second supply step of performing supply of the second process gas, while maintaining a shut-off state of supply of the first process gas. The method is arranged to repeat a first cycle set with the second supply step including an excitation period of exciting the second process gas and a second cycle set with the second supply step including no period of exciting the second process gas. | 12-18-2008 |
20090114156 | Film formation apparatus for semiconductor process - A film formation apparatus for a semiconductor process includes a support member having a plurality of support levels configured to support target substrates inside a reaction chamber; a film formation gas supply system configured to supply a film formation gas into the reaction chamber and including a gas distribution nozzle; a cleaning gas supply system configured to supply a cleaning gas for etching a by-product film deposited inside the reaction chamber; and an exhaust system configured to exhaust gas from inside the reaction chamber. The cleaning gas supply system includes a gas nozzle disposed near a bottom of the reaction chamber and having a gas supply port at its top directed upward, and the gas supply port is located below the lowermost one of the support levels of the support member. | 05-07-2009 |
20090117743 | Film formation apparatus and method for using same - A method for using a film formation apparatus for a semiconductor process to form a thin film on a target substrate inside a reaction chamber includes performing a cleaning process to remove a by-product film deposited on a predetermined region in a gas route from a film formation gas supply system, which supplies a film formation gas contributory to film formation, through the reaction chamber to an exhaust system, by alternately repeating an etching step and an exhaust step a plurality of times in a state where the reaction chamber does not accommodate the target substrate. The etching step includes supplying a cleaning gas in an activated state for etching the by-product film onto the predetermined region, thereby etching the by-product film. The exhaust step includes stopping supply of the cleaning gas and exhausting gas by the exhaust system from a space in which the predetermined region is present. | 05-07-2009 |
20090124083 | Film formation apparatus and method for using same - A method for using a film formation apparatus for a semiconductor process to form a thin film on a target substrate while supplying a film formation reactive gas from a first nozzle inside a reaction chamber includes performing a cleaning process to remove a by-product film deposited inside the reaction chamber and the first nozzle, in a state where the reaction chamber does not accommodate the target substrate. The cleaning process includes, in order, an etching step of supplying a cleaning reactive gas for etching the by-product film into the reaction chamber, and activating the cleaning reactive gas, thereby etching the by-product film, and an exhaust step of stopping supply of the cleaning reactive gas and exhausting gas from inside the reaction chamber. The etching step is arranged to use conditions that cause the cleaning reactive gas supplied in the reaction chamber to flow into the first nozzle. | 05-14-2009 |
20090124087 | Vertical plasma processing apparatus and method for using same - A vertical plasma processing apparatus for a semiconductor process for performing a plasma process on target substrates all together includes an exciting mechanism configured to turn at least part of a process gas into plasma. The exciting mechanism includes first and second electrodes provided to a plasma generation box and facing each other with a plasma generation area interposed therebetween, and an RF power supply configured to supply an RF power for plasma generation to the first and second electrodes and including first and second output terminals serving as grounded and non-grounded terminals, respectively. A switching mechanism is configured to switch between a first state where the first and second electrodes are connected to the first and second output terminals, respectively, and a second state where the first and second electrodes are connected to the second and first output terminals, respectively. | 05-14-2009 |
20090203227 | Film Formation method and apparatus for forming silicon-containing insulating film - A silicon-containing insulating film is formed on a target substrate by CVD, in a process field to be selectively supplied with a first process gas including di-iso-propylaminosilane gas and a second process gas including an oxidizing gas or nitriding gas. The film is formed by performing a plurality of times a cycle alternately including first and second steps. The first step performs supply of the first process gas, thereby forming an adsorption layer containing silicon on a surface of the target substrate. The second performs supply of the second process gas, thereby oxidizing or nitriding the adsorption layer on the surface of the target substrate. The second step includes an excitation period of supplying the second process gas to the process field while exciting the second process gas by an exciting mechanism. | 08-13-2009 |
20090263975 | FILM FORMATION METHOD AND APPARATUS FOR FORMING SILICON-CONTAINING INSULATING FILM DOPED WITH METAL - A film formation method for a semiconductor process performs a film formation process to form a silicon-containing insulating film doped with a metal on a target substrate, in a process field inside a process container configured to be selectively supplied with a silicon source gas and a metal source gas. The method includes forming a first insulating thin layer by use of a chemical reaction of the silicon source gas, while maintaining a shut-off state of supply of the metal source gas; then, forming a first metal thin layer by use of a chemical reaction of the metal source gas, while maintaining a shut-off state of supply of the silicon source gas; and then, forming a second insulating thin layer by use of the chemical reaction of the silicon source gas, while maintaining a shut-off state of supply of the metal source gas. | 10-22-2009 |
20100081094 | 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. | 04-01-2010 |
20100105215 | METHOD OF MODIFYING INSULATING FILM - An insulting film is modified by subjecting the insulting film to a modification treatment comprising a combination of a plasma treatment and a thermal annealing treatment. There is provided a method of enhancing the characteristic of an insulating film by improving deterioration in the characteristic of the insulating film due to carbon, a suboxide, a dangling bond or the like contained in the insulating film. | 04-29-2010 |
20100136260 | FILM FORMATION METHOD IN VERTICAL BATCH CVD APPARATUS - A film formation method, in a vertical batch CVD apparatus, is preset to repeat a cycle a plurality of times to laminate thin films formed by respective times. The cycle alternately includes an adsorption step of adsorbing a source gas onto a surface of the target substrates and a reaction step of causing a reactive gas to react with the adsorbed source gas. The adsorption step is arranged to make a plurality of times a supply sub-step of performing supply of the source gas to the process field with an intermediate sub-step of stopping supply of the source gas to the process field interposed therebetween, while maintaining a shut-off state of supply of the reactive gas. The reaction step is arranged to continuously perform supply of the reactive gas to the process field, while maintaining a shut-off state of supply of the source gas. | 06-03-2010 |
20100189927 | FILM FORMATION APPARATUS AND METHOD FOR USING SAME - A method for using a film formation apparatus includes performing a main cleaning process and a post cleaning process in this order inside a reaction chamber. The main cleaning process is arranged to supply a cleaning gas containing fluorine into the reaction chamber while exhausting gas from inside the reaction chamber, thereby etching a film formation by-product containing silicon. The post cleaning process is arranged to remove a silicon-containing fluoride generated by the main cleaning process and remaining inside the reaction chamber and to alternately repeat, a plurality of times, supplying an oxidizing gas into the reaction chamber to transform the silicon-containing fluoride into an intermediate product by oxidization, and supplying hydrogen fluoride gas into the reaction chamber while exhausting gas from inside the reaction chamber to remove the intermediate product by a reaction between the hydrogen fluoride gas and the intermediate product. | 07-29-2010 |
20100304574 | FILM FORMATION METHOD AND APPARATUS FOR SEMICONDUCTOR PROCESS - Disclosed is a method for using a film formation apparatus to form a silicon nitride film by CVD on target substrates while suppressing particle generation. The apparatus includes a process container and an exciting mechanism attached on the process container. The method includes conducting a pre-coating process by performing pre-cycles and conducting a film formation process by performing main cycles. Each of the pre-cycles and main cycles alternately includes a step of supplying a silicon source gas and a step of supplying a nitriding gas with steps of exhausting gas from inside the process container interposed therebetween. The pre-coating process includes no period of exciting the nitriding gas by the exciting mechanism. The film formation process repeats a first cycle set that excites the nitriding gas by the exciting mechanism and a second cycle that does not excite the nitriding gas by the exciting mechanism. | 12-02-2010 |
20100319619 | OXIDATION METHOD AND APPARATUS FOR SEMICONDUCTOR PROCESS - In an oxidation method for a semiconductor process, target substrates are placed at intervals in a vertical direction within a process field of a process container. An oxidizing gas and a deoxidizing gas are supplied to the process field from one side of the process field while gas is exhausted from the other side. One or both of the oxidizing gas and the deoxidizing gas are activated. The oxidizing gas and the deoxidizing gas are caused to react with each other, thereby generating oxygen radicals and hydroxyl group radicals within the process field. An oxidation process is performed on the surfaces of the target substrate by use of the oxygen radicals and the hydroxyl group radicals. | 12-23-2010 |
20110129618 | VERTICAL FILM FORMATION APPARATUS AND METHOD FOR USING SAME - A method for using a vertical film formation apparatus includes performing a coating process inside the process container without product target objects present therein to cover an inner surface of the process container with a coating film, and then performing a film formation process inside the process container accommodating the holder with the product target objects placed thereon to form a predetermined film on the product target objects. The coating process alternately supplies the first and second process gases into the process container without turning either of the first and second process gases into plasma. The film formation process alternately supplies the first and second process gases into the process container while turning at least one of the first and second process gases into plasma. | 06-02-2011 |
20110129619 | FILM FORMATION METHOD AND APPARATUS - A film formation method includes setting a target object at a temperature of 150 to 550° C., the target object being placed inside the process container configured to hold a vacuum state therein, and then, repeating a cycle alternately including a first supply step and a second supply step a plurality of times to form a silicon nitride film on the target object. The first supply step is a step of supplying monochlorosilane gas as an Si source into the process container while setting the process container at a pressure of 66.65 to 666.5 Pa therein. The second supply step is a step of supplying a nitrogen-containing gas as a nitriding gas into the process container. | 06-02-2011 |
20110151679 | FILM FORMATION METHOD FOR FORMING SILICON-CONTAINING INSULATING FILM - A silicon-containing insulating film is formed on a target substrate by CVD, in a process field to be selectively supplied with a first process gas including di-iso-propylaminosilane gas and a second process gas including an oxidizing gas or nitriding gas. The film is formed by performing a plurality of times a cycle alternately including first and second steps. The first step performs supply of the first process gas, thereby forming an adsorption layer containing silicon on a surface of the target substrate. The second performs supply of the second process gas, thereby oxidizing or nitriding the adsorption layer on the surface of the target substrate. The second step includes an excitation period of supplying the second process gas to the process field while exciting the second process gas by an exciting mechanism. | 06-23-2011 |
20120282418 | SiCN FILM FORMATION METHOD AND APPARATUS - A method for forming an SiCN film on target substrates placed in a process field inside a process container repeats a unit cycle a plurality of times to laminate thin films respectively formed, thereby forming the SiCN film with a predetermined thickness. The unit cycle includes performing and suspending supply of a silicon source gas, a nitriding gas, and a carbon hydride gas respectively from first, second, and third gas distribution nozzles to the process field. The unit cycle does not turn any one of the gases into plasma but heats the process field to a set temperature of 300 to 700° C. with the supply of the carbon hydride gas performed for a time period in total longer than that of the supply of the silicon source gas, so as to provide the SiCN film with a carbon concentration of 15.2% to 28.5%. | 11-08-2012 |