Patent application number | Description | Published |
20080276958 | SUBSTRATE CLEANING CHAMBER AND CLEANING AND CONDITIONING METHODS - A substrate cleaning chamber includes a contoured ceiling electrode having an arcuate surface that faces a substrate support and has a variable cross-sectional thickness to vary the gap size between the arcuate surface and the substrate support to provide a varying plasma density across the substrate support. A dielectric ring for the cleaning chamber comprises a base, a ridge, and a radially inward ledge that covers the peripheral lip of the substrate support. A base shield comprises a circular disc having at least one perimeter wall. Cleaning and conditioning processes for the cleaning chamber are also described. | 11-13-2008 |
20090197419 | PROCESS FOR REMOVING HIGH STRESSED FILM USING LF OR HF BIAS POWER AND CAPACITIVELY COUPLED VHF SOURCE POWER WITH ENHANCED RESIDUE CAPTURE - A method of fabricating multilayer interconnect structures on a semiconductor wafer uses an interior surface of a metal lid that has been roughed to a surface roughness in excess of RA 2000 with a reentrant surface profile. The metal lid is installed as the ceiling of a plasma clean reactor chamber having a wafer pedestal facing the interior surface of the ceiling. | 08-06-2009 |
20100012029 | APPARATUS FOR CONTROLLING RADIAL DISTRIBUTION OF PLASMA ION DENSITY AND ION ENERGY AT A WORKPIECE SURFACE BY MULTI-FREQUENCY RF IMPEDANCE TUNING - In a physical vapor deposition plasma reactor, a multi-frequency impedance controller is coupled between RF ground and one of (a) the bias electrode, (b) the sputter target, the controller providing adjustable impedances at a first set of frequencies, said first set of frequencies including a first set of frequencies to be blocked and a first set of frequencies to be admitted. The first multi-frequency impedance controller includes a set of band pass filters connected in parallel and tuned to said first set of frequencies to be admitted, and a set of notch filters connected in series and tuned to said first set of frequencies to be blocked. | 01-21-2010 |
20100012480 | METHOD FOR CONTROLLING RADIAL DISTRIBUTION OF PLASMA ION DENSITY AND ION ENERGY AT A WORKPIECE SURFACE BY MULTI-FREQUENCY RF IMPEDANCE TUNING - The method of performing physical vapor deposition on a workpiece includes performing at least one of the following: (a) increasing ion density over a workpiece center while decreasing ion density over a workpiece edge by decreasing impedance to ground at a target source power frequency f | 01-21-2010 |
20100089748 | CONTROL OF EROSION PROFILE ON A DIELECTRIC RF SPUTTER TARGET - The present invention generally includes a sputtering target assembly that may be used in an RF sputtering process. The sputtering target assembly may include a backing plate and a sputtering target. The backing plate may be shaped to have one or more fins that extend from the backing plate towards the sputtering target. The sputtering target may be bonded to the fins of the backing plate. The RF current utilized during a sputtering process will be applied to the sputtering target at the one or more fin locations. The fins may extend from the backing plate at a location that corresponds to a magnetic field produced by a magnetron that may be disposed behind the backing plate. By controlling the location where the RF current is coupled to the sputtering target to be aligned with the magnetic field, the erosion of the sputtering target may be controlled. | 04-15-2010 |
20100314244 | Ionized Physical Vapor Deposition for Microstructure Controlled Thin Film Deposition - Methods of processing a substrate in a PVD chamber comprising a target, a substrate and a process gas at a pressure sufficient to cause ionization of a substantial portion of species sputtered from the target are described. A capacitively coupled high density plasma is maintained by applying very high frequency power to the target. Sputtered material is ionized in the plasma and accelerated toward the substrate by a high frequency bias power applied to the substrate. The microstructure of the resultant film is controlled by modifying one or more of the pressure and the high frequency bias power. | 12-16-2010 |
20100314245 | Ionized Physical Vapor Deposition for Microstructure Controlled Thin Film Deposition - Methods of processing a substrate in a PVD chamber comprising a target, a substrate and a process gas at a pressure sufficient to cause ionization of a substantial portion of species sputtered from the target are described. A capacitively coupled high density plasma is maintained by applying very high frequency power to the target. Sputtered material is ionized in the plasma and accelerated toward the substrate by a high frequency bias power applied to the substrate. The microstructure of the resultant film is controlled by modifying one or more of the pressure and the high frequency bias power. | 12-16-2010 |
20120097104 | RF IMPEDANCE MATCHING NETWORK WITH SECONDARY DC INPUT - Embodiments of the disclosure may provide a matching network for a physical vapor deposition system. The matching network may include an RF generator coupled to a first input of an impedance matching network, and a DC generator coupled a second input of the impedance matching network. The impedance matching network may be configured to receive an RF signal from the RF generator and a DC signal from the DC generator and cooperatively communicate both signals to a deposition chamber target through an output of the impedance matching network. The matching network may also include a filter disposed between the second input and the output of the impedance matching network. | 04-26-2012 |
20120097524 | RF IMPEDANCE MATCHING NETWORK WITH SECONDARY FREQUENCY AND SUB-HARMONIC VARIANT - Embodiments of the disclosure may provide a matching network for physical vapor deposition. The matching network may include a first RF generator coupled to a deposition chamber target through a first impedance matching network having a first tuning circuit. The first RF generator may be configured to introduce a first AC signal to the deposition chamber target. The matching network may also include a second RF generator coupled to a deposition chamber pedestal through a second impedance matching network. The second RF generator may be configured to introduce a second AC signal to the deposition chamber pedestal. The first tuning circuit may be configured to modify an effect of the second AC signal on plasma formed between the deposition chamber target and the deposition chamber pedestal. | 04-26-2012 |
20130192629 | SUBSTRATE CLEANING CHAMBER AND CLEANING AND CONDITIONING METHODS - A substrate cleaning chamber includes a contoured ceiling electrode having an arcuate surface that faces a substrate support and has a variable cross-sectional thickness to vary the gap size between the arcuate surface and the substrate support to provide a varying plasma density across the substrate support. A dielectric ring for the cleaning chamber comprises a base, a ridge, and a radially inward ledge that covers the peripheral lip of the substrate support. A base shield comprises a circular disc having at least one perimeter wall. Cleaning and conditioning processes for the cleaning chamber are also described. | 08-01-2013 |