Patent application number | Description | Published |
20120196052 | METHOD OF FORMING COPPER WIRING AND METHOD AND SYSTEM FOR FORMING COPPER FILM - A method of forming a Cu wiring in a trench or hole formed in a substrate is provided. The method includes forming a barrier film on the surface of the trench or hole, forming a Ru film on the barrier film, and embedding Cu in the trench or hole by forming a Cu film on the Ru film using PVD while annealing the substrate such that migration of copper into the trench or hole occurs. | 08-02-2012 |
20120196437 | METHODS OF FORMING COPPER WIRING AND COPPER FILM, AND FILM FORMING SYSTEM - A method of forming a Cu wiring in a trench or hole formed in a substrate is provided. The method includes forming a barrier film on the surface of the trench or hole, forming a Ru film on the barrier film, and embedding copper in the trench or hole by forming a Cu film on the Ru film using PVD while heating the substrate such that migration of copper into the trench or hole occurs. | 08-02-2012 |
20130081938 | MAGNETRON SPUTTERING APPARATUS AND METHOD - A magnetron sputtering apparatus in which a target is disposed to face a substrate includes a magnet array body including a magnet group arranged on a base body, and a rotating mechanism for rotating the magnet array body around an axis perpendicular to the substrate. In the magnet array body, N poles and S poles constituting the magnet group are arranged to be spaced from each other along a surface facing the target such that a plasma is generated based on a drift of electrons by a cusp magnetic field. Magnets located on the outermost periphery of the magnet group are arranged in a line to prevent the electrons from being released from constraint of the cusp magnetic field and jumping out of the cusp magnetic field. A distance between the target and the substrate during sputtering is equal to or less than 30 mm. | 04-04-2013 |
20130105309 | MAGNETRON SPUTTERING APPARATUS | 05-02-2013 |
20130237053 | FILM FORMING METHOD AND FILM FORMING APPARATUS - A film forming method which generates metal ions from a metal target with a plasma in a processing chamber and attracts the metal ions with a bias to deposit a metal thin film on a target object wherein trenches are formed. The method includes: generating metal ions from a target and attracting the metal ions into a target object with a bias to form a base film in a trench; ionizing a rare gas with the bias in a state where no metal ion is generated and attracting the generated ions into the target object to etch the base film; and plasma sputtering the target to generate metal ions and attracting the metal ions into the object with a high frequency power for bias to deposit a main film as a metal film, while reflowing the main film by heating. | 09-12-2013 |
20140045329 | METHOD FOR FORMING CU WIRING - A Cu wiring forming method forms Cu wiring in a recess of a predetermined pattern including a trench formed in an insulating film on a substrate surface. The method includes: forming a barrier film at least on a surface of the recess; forming a Cu film by PVD to fill the recess with the Cu film; forming an additional layer on the Cu film; polishing an entire surface by CMP to form the Cu wiring in the recess; forming a metal cap including a manganese oxide film on an entire surface including the insulating film and the Cu wiring of the substrate after performing the CMP polishing; and forming a dielectric cap on the metal cap. | 02-13-2014 |
20140060572 | PLASMA PROCESSING APPARATUS AND CLEANING METHOD FOR REMOVING METAL OXIDE FILM - In a plasma processing apparatus, a mounting table is provided in a processing chamber, and a remote plasma generating unit is configured to generate an excited gas by exiting a hydrogen-containing gas. The remote plasma generating unit has an outlet for discharging the excited gas. A diffusion unit is provided to correspond to the outlet of the remote plasma generating unit and serves to receive the excited gas flowing from the outlet and diffuse the hydrogen active species having a reduced amount of hydrogen ions. An ion filter is disposed between the diffusion unit and the mounting table while being separated from the diffusion unit. The ion filter serves to capture the hydrogen ions contained in the hydrogen active species diffused by the diffusion unit and allow the hydrogen active species having a further reduced amount of hydrogen ions to pass therethrough the mounting table. | 03-06-2014 |
20160071707 | PROCESSING APPARATUS - A processing apparatus includes a processing chamber, a rotatable mounting table, a cooling mechanism and a driving mechanism. A sputtering target is provided in the processing chamber. The rotatable mounting table is provided in the processing chamber and configured to mount thereon an object to be processed. The cooling mechanism is configured to cool the mounting table. The driving mechanism is configured to change a relative position of the mounting table with respect to the cooling mechanism. The driving mechanism changes a conductivity of heat from the mounting table to the cooling mechanism at least by switching a first state in which the mounting table and the cooling mechanism are separated from each other and a second state in which the mounting table and the cooling mechanism become close to each other. | 03-10-2016 |