Patent application number | Description | Published |
20080233766 | ASHING METHOD AND APPARATUS THEREFOR - An ashing method of a target substrate is applied after plasma-etching a part of a low-k film by using a patterned resist film as a mask in a vacuum processing chamber. The method includes a process of removing the resist film in the vacuum processing chamber, and a pre-ashing process, performed prior to the main ashing process, for ashing the target substrate for a time period while maintaining the target substrate at a temperature in a range of from about 80 to 150° C. | 09-25-2008 |
20080314520 | Method and apparatus for manufacturing semiconductor device, and storage medium - The present invention provides a method for manufacturing a semiconductor device. In the method, a connection hole such as a via hole is formed in an interlayer insulating film by plasma etching with high etching uniformity regardless of the array density of connection holes. In the method, an upper layer film having a mask pattern is formed on the interlayer insulating film present on a substrate. A gas required for dehydration is then supplied to the substrate under the condition that an upper surface of the interlayer insulating film is exposed in order to remove moisture from the interlayer insulating film. A portion of the interlayer insulating film is etched to form a connection hole in which an electrical connection portion is to be embedded. | 12-25-2008 |
20090146145 | PROCESSING CONDITION INSPECTION AND OPTIMIZATION METHOD OF DAMAGE RECOVERY PROCESS, DAMAGE RECOVERING SYSTEM AND STORAGE MEDIUM - A processing condition inspection method of a damage recovery process for reforming a film having OH groups generated by damages from a predetermined process by using a processing gas includes preparing a substrate having an OH group containing resin film, measuring an initial film thickness of the OH group containing resin film, performing a damage recovery process on the substrate after measuring the initial film thickness, measuring a film thickness of the OH group containing resin film after the damage recovery process, calculating a film thickness difference of the OH group containing resin film before and after the damage recovery process, and determining whether processing conditions of the damage recovery process are appropriate or inappropriate based on the film thickness difference. | 06-11-2009 |
20100116786 | ETCHING METHOD AND APPARATUS - When a substrate is etched by using a processing gas including a first gas containing halogen and carbon and having a carbon number of two or less per molecule, while supplying the processing gas toward the substrate independently from a central and a peripheral portion of a gas supply unit, which face the central and the periphery part of the substrate respectively, the processing gas is supplied such that a gas flow rate is greater in the central portion than in the peripheral portion. When the substrate is etched by using a processing gas including a second gas containing halogen and carbon and having a carbon number of three or more per molecule, the processing gas is supplied such that a gas flow rate is greater in the peripheral portion than in the central portion. | 05-13-2010 |
20100116787 | ETCHING METHOD AND APPARATUS - When a substrate is etched by using a processing gas including a first gas containing halogen and carbon and having a carbon number of two or less per molecule, while supplying the processing gas toward the substrate independently from a central and a peripheral portion of a gas supply unit, which face the central and the periphery part of the substrate respectively, the processing gas is supplied such that a gas flow rate is greater in the central portion than in the peripheral portion. When the substrate is etched by using a processing gas including a second gas containing halogen and carbon and having a carbon number of three or more per molecule, the processing gas is supplied such that a gas flow rate is greater in the peripheral portion than in the central portion. | 05-13-2010 |
20110168205 | SUBSTRATE CLEANING METHOD AND SUBSTRATE CLEANING APPARATUS - A substrate cleaning method performing cleaning of a surface of a substrate after a pattern on the substrate is formed by plasma etching, includes: a by-product removal process removing a by-product by exposing the substrate to an HF gas atmosphere; and a residual fluorine removal process removing fluorine remaining on the substrate by turning cleaning gas containing hydrogen gas and chemical compound gas containing carbon and hydrogen as constituent elements into plasma to act on the substrate. | 07-14-2011 |
20110204026 | PLASMA ASHING METHOD - A plasma ashing method is used for removing a patterned resist film in a processing chamber after etching a portion of a low-k film from an object to be processed in the processing chamber by using the patterned resist film as a mask. The method includes a first step of supplying a reaction product removal gas including at least CO | 08-25-2011 |
20120009786 | PLASMA PROCESSING METHOD AND MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE - A plasma processing method in which performing a plasma etching on metal layers formed on a substrate is conducted to form a pattern having the metal layers in a stacked structure, and then a deposit containing a metal that forms the metal layers and being deposited on a sidewall portion of the pattern is removed, the method includes: forming a protective layer by forming an oxide or chloride of the metal on sidewall portions of the metal layers; removing the deposit by applying a plasma of a gas containing fluorine atoms; and reducing the oxide or chloride of the metal by applying a plasma containing hydrogen after forming the protective layer and removing the deposit. | 01-12-2012 |
20120160416 | ETCHING APPARATUS - When a substrate is etched by using a processing gas including a first gas containing halogen and carbon and having a carbon number of two or less per molecule, while supplying the processing gas toward the substrate independently from a central and a peripheral portion of a gas supply unit, which face the central and the periphery part of the substrate respectively, the processing gas is supplied such that a gas flow rate is greater in the central portion than in the peripheral portion. When the substrate is etched by using a processing gas including a second gas containing halogen and carbon and having a carbon number of three or more per molecule, the processing gas is supplied such that a gas flow rate is greater in the peripheral portion than in the central portion. | 06-28-2012 |
20130118688 | ETCHING APPARATUS - When a substrate is etched by using a processing gas including a first gas containing halogen and carbon and having a carbon number of two or less per molecule, while supplying the processing gas toward the substrate independently from a central and a peripheral portion of a gas supply unit, which face the central and the periphery part of the substrate respectively, the processing gas is supplied such that a gas flow rate is greater in the central portion than in the peripheral portion. When the substrate is etched by using a processing gas including a second gas containing halogen and carbon and having a carbon number of three or more per molecule, the processing gas is supplied such that a gas flow rate is greater in the peripheral portion than in the central portion. | 05-16-2013 |
Patent application number | Description | Published |
20090188428 | SUBSTRATE PROCESSING APPARATUS - A substrate processing apparatus includes a processing vessel; a mounting table for mounting the substrate thereon in the processing vessel; a gas inlet unit provided in the processing vessel; a gas supply mechanism for supplying a hydrogen-containing gas into the processing vessel through the gas inlet unit; a gas discharge port provided at the processing vessel; a gas exhaust mechanism for exhausting an inside of the processing vessel through the gas discharge port; a catalyst provided in the processing vessel; and a heating unit for heating the catalyst. Hydrogen radicals are formed in the processing vessel by a catalytic cracking reaction between the hydrogen-containing gas and the catalyst of high temperature, and the substrate is processed by the hydrogen radicals. | 07-30-2009 |
20090305480 | SEMICONDUCTOR DEVICE MANUFACTURING METHOD AND STORAGE MEDIUM - A method of manufacturing a semiconductor device, including an interlayer insulating layer having a dielectric constant of about 1, includes at least one of hydrophobically modifying an interlayer insulating film for insulating lines from each other, before forming air gaps in the interlayer insulating film, and hydrophobically modifying the lines, after forming the air gaps in the interlayer insulating film. | 12-10-2009 |
20110174337 | METHOD AND APPARATUS FOR RECOVERING PATTERN ON SILICON SUBSTRATE - A method for recovering a shape of patterns, formed etching on a silicon substrate by etching, by removing foreign substances grown between the patterns is provided. The method includes heating the silicon substrate accommodated in a chamber to a temperature of about 160° C. or higher. | 07-21-2011 |
20120190207 | PLASMA PROCESSING APPARATUS AND PLASMA PROCESSING METHOD - A plasma processing apparatus performs plasma process by using a hydrogen radical generated by plasma-exciting a process gas containing hydrogen on a substrate to be processed. A high-frequency antenna includes an antenna device that is configured to resonate at a half-wavelength of high-frequency power applied from the high-frequency power source by opening two ends of the antenna device and grounding a center point of the antenna device. A barrier wall member for separating a plasma generating chamber and a plasma processing chamber includes a plurality of plate-shaped members having a plurality of openings through which the hydrogen radical passes, formed of an insulating material through which UV light does not pass, and overlapping each other at a predetermined interval, wherein the openings of one plate-shaped member are provided not to overlap the openings of another plate-shaped member. | 07-26-2012 |
Patent application number | Description | Published |
20090001046 | SUBSTRATE PROCESSING METHOD, SUBSTRATE PROCESSING APPARATUS AND RECORDING MEDIUM - The present invention provides a method, an apparatus and the like that may be adopted when executing a specific type of processing on a substrate that includes a recessed portion formed by etching a low dielectric constant insulating film with a low dielectric constant having been formed upon a metal layer. More specifically, a hydrogen radical processing phase in which the surface of the metal layer exposed at the bottom of the recessed portion is cleaned and the low dielectric constant insulating film is dehydrated by supplying hydrogen radicals while heating the substrate to a predetermined temperature and a hydrophobicity processing phase in which the low dielectric constant insulating film exposed at a side surface of the recessed portion is rendered hydrophobic by supplying a specific type of processing gas to the substrate are executed in succession without exposing the substrate to air. | 01-01-2009 |
20090008034 | PLASMA PROCESSING APPARATUS - A plasma generation chamber and a processing chamber are isolated from each other by a barrier wall member disposed between them. The barrier wall member includes two plate members and stacked one on top of the other over a gap, a plurality of through holes and, via which hydrogen radicals are allowed to pass, are respectively formed at the plate member and the plate member. The through holes at one plate member are formed with an offset relative to the through holes formed at the other plate member and the plate members are both constituted of an insulating material that does not transmit ultraviolet light. | 01-08-2009 |
20120270406 | CLEANING METHOD OF PLASMA PROCESSING APPARATUS AND PLASMA PROCESSING METHOD - A plasma processing apparatus in which a cleaning method is performed includes a plasma generating chamber, having a silicon-containing member, for generating therein plasma by exciting a processing gas; a plasma processing chamber communicating with the plasma generating chamber via a partition member; and a high frequency antenna, having a planar shape, provided at an outside of a dielectric window of the plasma generating chamber. The cleaning method includes exciting a hydrogen-containing processing gas into plasma in the plasma generating chamber, introducing hydrogen radicals in the plasma into the plasma processing chamber through the partition member, performing a plasma process on a processing target substrate by allowing the hydrogen radicals to act on the processing target substrate, unloading the processing target substrate, and removing silicon-based deposits generated in the plasma generating chamber by introducing a tetrafluoride (tetrafluoromethane) gas into the plasma generating chamber. | 10-25-2012 |
20140091435 | Etching of Block-Copolymers - The present disclosure relates to a method ( | 04-03-2014 |
20140131839 | Etching Method Using Block-Copolymers - A method for lithography is disclosed. The method includes obtaining a self-organizing block-copolymer layer on a neutral layer overlying a substrate, the self-organizing block-copolymer layer comprising at least two polymer components having mutually different etching resistances, the self-organizing block-copolymer layer furthermore comprising a copolymer pattern structure formed by micro-phase separation of the at least two polymer components. Further, the method includes etching selectively a first polymer component of the self-organizing block-copolymer layer, thereby remaining a second polymer component. Still further, the method includes applying a plasma etching to the neutral layer using the second polymer component as a mask, wherein the plasma etching comprises an inert gas and H | 05-15-2014 |