Patent application number | Description | Published |
20080237029 | Oxidized Barrier Layer - A method and resultant produce of forming barrier layer based on ruthenium tantalum in a via or other vertical interconnect structure through a dielectric layer in a multi-level metallization. The RuTa layer in a RuTa/RuTaN bilayer, which may form discontinuous islands, is actively oxidized, preferably in an oxygen plasma, to thereby bridge the gaps between the islands. Alternatively, ruthenium tantalum oxide is reactive sputtered onto the RuTaN or directly onto the underlying dielectric by plasma sputtering a RuTa target in the presence of oxygen. | 10-02-2008 |
20090053888 | Method of depositing a diffusion barrier layer which provides an improved interconnect - A method of depositing a duffusion barrier layer with overlying conductive layer or fill which lowers resistivity of a semiconductor device interconnect. The lower resistivity is achieved by inducing the formation of alpha tantalum within a tantalum-comprising barrier layer. | 02-26-2009 |
20090087982 | SELECTIVE RUTHENIUM DEPOSITION ON COPPER MATERIALS - Embodiments of the invention provide processes for selectively forming a ruthenium-containing film on a copper surface over exposed dielectric surfaces. Thereafter, a copper bulk layer may be deposited on the ruthenium-containing film. In one embodiment, a method for forming layers on a substrate is provided which includes positioning a substrate within a processing chamber, wherein the substrate contains a copper-containing surface and a dielectric surface, exposing the substrate to a ruthenium precursor to selectively form a ruthenium-containing film over the copper-containing surface while leaving exposed the dielectric surface, and depositing a copper bulk layer over the ruthenium-containing film. | 04-02-2009 |
20090233438 | SELF-IONIZED AND INDUCTIVELY-COUPLED PLASMA FOR SPUTTERING AND RESPUTTERING - A magnetron sputter reactor for sputtering deposition materials such as tantalum, tantalum nitride and copper, for example, and its method of use, in which self-ionized plasma (SIP) sputtering and inductively coupled plasma (ICP) sputtering are promoted, either together or alternately, in the same or different chambers. Also, bottom coverage may be thinned or eliminated by ICP resputtering in one chamber and SIP in another. SIP is promoted by a small magnetron having poles of unequal magnetic strength and a high power applied to the target during sputtering. ICP is provided by one or more RF coils which inductively couple RF energy into a plasma. The combined SIP-ICP layers can act as a liner or barrier or seed or nucleation layer for hole. In addition, an RF coil may be sputtered to provide protective material during ICP resputtering. In another chamber an array of auxiliary magnets positioned along sidewalls of a magnetron sputter reactor on a side towards the wafer from the target. The magnetron preferably is a small, strong one having a stronger outer pole of a first magnetic polarity surrounding a weaker outer pole of a second magnetic polarity and rotates about the central axis of the chamber. The auxiliary magnets preferably have the first magnetic polarity to draw the unbalanced magnetic field component toward the wafer. The auxiliary magnets may be either permanent magnets or electromagnets. | 09-17-2009 |
20100096253 | PVD CU SEED OVERHANG RE-SPUTTERING WITH ENHANCED CU IONIZATION - A method and apparatus for depositing metal on a patterned substrate are provided. A metal layer is formed in a physical vapor deposition process having a first energy. A second physical vapor deposition process is performed on the metal layer, using a second energy, wherein deposition interacts with brittle and plastic surface modification processes to form a substantially conformal metal layer on the substrate. | 04-22-2010 |
20100155223 | Electromagnet array in a sputter reactor - A multi-step process performed in a plasma sputter chamber including sputter deposition from the target and argon sputter etching of the substrate. The chamber includes a quadruple electromagnetic coil array coaxially arranged in a rectangular array about a chamber axis outside the sidewalls of a plasma sputter reactor in back of an RF coil within the chamber. The coil currents can be separately controlled to produce different magnetic field distributions, for example, between a sputter deposition mode in which the sputter target is powered to sputter target material onto a wafer and a sputter etch mode in which the RF coil supports the argon sputtering plasma. A TaN/Ta barrier is first sputter deposited with high target power and wafer bias. Argon etching is performed with even higher wafer bias. A flash step is applied with reduced target power and wafer bias. | 06-24-2010 |
20140305802 | SELF-IONIZED AND INDUCTIVELY-COUPLED PLASMA FOR SPUTTERING AND RESPUTTERING - A magnetron sputter reactor for sputtering deposition materials such as tantalum, tantalum nitride and copper, for example, and its method of use, in which self-ionized plasma (SIP) sputtering and inductively coupled plasma (ICP) sputtering are promoted, either together or alternately, in the same or different chambers. Also, bottom coverage may be thinned or eliminated by ICP resputtering in one chamber and SIP in another. SIP is promoted by a small magnetron having poles of unequal magnetic strength and a high power applied to the target during sputtering. ICP is provided by one or more RF coils which inductively couple RF energy into a plasma. The combined SIP-ICP layers can act as a liner or barrier or seed or nucleation layer for hole. In addition, an RF coil may be sputtered to provide protective material during ICP resputtering. In another chamber an array of auxiliary magnets positioned along sidewalls of a magnetron sputter reactor on a side towards the wafer from the target. The magnetron preferably is a small, strong one having a stronger outer pole of a first magnetic polarity surrounding a weaker outer pole of a second magnetic polarity and rotates about the central axis of the chamber. The auxiliary magnets preferably have the first magnetic polarity to draw the unbalanced magnetic field component toward the wafer. The auxiliary magnets may be either permanent magnets or electromagnets. | 10-16-2014 |
20150079799 | METHOD FOR STABILIZING AN INTERFACE POST ETCH TO MINIMIZE QUEUE TIME ISSUES BEFORE NEXT PROCESSING STEP - Methods for etching a dielectric barrier layer disposed on the substrate using a low temperature etching process along with a subsequent interface protection layer deposition process are provided. In one embodiment, a method for etching a dielectric barrier layer disposed on a substrate includes transferring a substrate having a dielectric barrier layer disposed thereon into an etching processing chamber, performing a treatment process on the dielectric barrier layer, remotely generating a plasma in an etching gas mixture supplied into the etching processing chamber to etch the treated dielectric barrier layer disposed on the substrate, plasma annealing the dielectric barrier layer to remove the dielectric barrier layer from the substrate, and forming an interface protection layer after the dielectric barrier is removed from the substrate. | 03-19-2015 |