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| 20090068433 | CERAMIC COVER WAFERS OF ALUMINUM NITRIDE OR BERYLLIUM OXIDE - Embodiments of the invention provide a method and apparatus for protecting a susceptor during a cleaning operation by loading a ceramic cover substrate containing either aluminum nitride or beryllium oxide onto the susceptor before introducing the cleaning agent into the chamber. In one embodiment, an aluminum nitride ceramic cover substrate is provided which includes an aluminum nitride ceramic wafer having a thermal conductivity of greater than 160 W/m-K, a circular-shaped geometry having a diameter within a range from about 11 inches to about 13 inches, a thickness within a range from about 0.030 inches to about 0.060 inches, and a flatness of about 0.010 inches or less. The thermal conductivity may be about 180 W/m-K, about 190 W/m-K, or greater. The thickness may be within a range from about 0.035 inches to about 0.050 inches, and the flatness may be about 0.008 inches, about 0.006 inches, or less. | 03-12-2009 |
| 20100048028 | SURFACE TREATED ALUMINUM NITRIDE BAFFLE - Methods and apparatus relating to aluminum nitride baffles are provided herein. In some embodiments, a baffle for use in semiconductor process chambers may include a body comprising aluminum nitride and a metal oxide binding agent, wherein a ratio of aluminum nitride to metal oxide on a surface of the body is greater than or equal to the ratio within the body. In some embodiments, the body may have a center stem and an outer annulus coupled to and extending radially outwards from a lower portion of the center stem. In some embodiments, a method of fabricating a baffle may include sintering aluminum, nitrogen, and a metal oxide binding agent to form a body of the baffle, the body having excess metal oxide binding agent disposed on a surface thereof; and removing a bulk of the excess metal oxide binding agent from a surface of the body. | 02-25-2010 |
| 20100252416 | Sputtering Target for PVD Chamber - Target assemblies and PVD chambers including target assemblies are disclosed. The target assembly includes a target that has a concave shaped target. When used in a PVD chamber, the concave target provides more radially uniform deposition on a substrate disposed in the sputtering chamber. | 10-07-2010 |
| 20100252417 | HIGH PRESSURE RF-DC SPUTTERING AND METHODS TO IMPROVE FILM UNIFORMITY AND STEP-COVERAGE OF THIS PROCESS - Embodiments of the invention generally provide a processing chamber used to perform a physical vapor deposition (PVD) process and methods of depositing multi-compositional films. The processing chamber may include: an improved RF feed configuration to reduce any standing wave effects; an improved magnetron design to enhance RF plasma uniformity, deposited film composition and thickness uniformity; an improved substrate biasing configuration to improve process control; and an improved process kit design to improve RF field uniformity near the critical surfaces of the substrate. The method includes forming a plasma in a processing region of a chamber using an RF supply coupled to a multi-compositional target, translating a magnetron relative to the multi-compositional target, wherein the magnetron is positioned in a first position relative to a center point of the multi-compositional target while the magnetron is translating and the plasma is formed, and depositing a multi-compositional film on a substrate in the chamber. | 10-07-2010 |
| 20110036709 | PROCESS KIT FOR RF PHYSICAL VAPOR DEPOSITION - Embodiments of the invention generally relate to a process kit for a semiconductor processing chamber, and a semiconductor processing chamber having a kit. More specifically, embodiments described herein relate to a process kit including a cover ring, a shield, and an isolator for use in a physical deposition chamber. The components of the process kit work alone and in combination to significantly reduce particle generation and stray plasmas. In comparison with existing multiple part shields, which provide an extended RF return path contributing to RF harmonics causing stray plasma outside the process cavity, the components of the process kit reduce the RF return path thus providing improved plasma containment in the interior processing region. | 02-17-2011 |
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| 20090120464 | MULTI-PORT PUMPING SYSTEM FOR SUBSTRATE PROCESSING CHAMBERS - An exhaust foreline for purging fluids from a semiconductor fabrication chamber is described. The foreline may include a first, second and third ports independently coupled to the chamber. A semiconductor fabrication system is also described that includes a substrate chamber that has a first, second and third interface port. The system may also include a multi-port foreline that has a first, second and third port, where the first foreline port is coupled to the first interface port, the second foreline port is coupled to the second interface port, and the third foreline port is coupled to the third interface port. The system may further include an exhaust vacuum coupled to the multi-port foreline. | 05-14-2009 |
| 20090261276 | METHOD AND APPARATUS FOR EXCIMER CURING - An apparatus for An apparatus for generating excimer radiation is provided. The apparatus includes a housing having a housing wall. An electrode is configured within the housing. A tubular body is around the electrode. The tubular body includes an outer wall and an inner wall. At least one inert gas is between the outer wall and the inner wall, wherein the housing wall and the electrode are configured to excite the inert gas to illuminate an excimer light for curing. | 10-22-2009 |
| 20090266299 | LOW PROFILE PROCESS KIT - Embodiments of process kits for substrate supports of semiconductor substrate process chambers are provided herein. In some embodiments, a process kit for a semiconductor process chamber may include an annular body being substantially horizontal and having an inner and an outer edge, and an upper and a lower surface; an inner lip disposed proximate the inner edge and extending vertically from the upper surface; and an outer lip disposed proximate the outer edge and on the lower surface, and having a shape conforming to a surface of the substrate support pedestal. In some embodiments, a process kit for a semiconductor process chamber my include an annular body having an inner and an outer edge, and having an upper and lower surface, the upper surface disposed at a downward angle of between about 5-65 degrees in an radially outward direction from the inner edge toward the outer edge. | 10-29-2009 |
