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| 20080308229 | ELECTRODE ASSEMBLY AND PLASMA PROCESSING CHAMBER UTILIZING THERMALLY CONDUCTIVE GASKET AND O-RINGS - The present invention relates generally to plasma processing and, more particularly, to plasma processing chambers and electrode assemblies used therein. According to one embodiment of the present invention, an electrode assembly is provided comprising a thermal control plate, a silicon-based showerhead electrode, a thermally conductive gasket, and a plurality of o-rings, wherein respective profiles of a frontside of the thermal control plate and a backside of the showerhead electrode cooperate to define a thermal interface. The thermally conductive gasket and the o-rings are positioned along this thermal interface with the o-rings separating the thermally conductive gasket from the showerhead passages such that the gasket is isolated from the showerhead passages. The gasket may facilitate heat transfer across the thermal interface from the showerhead electrode to the thermal control plate. | 12-18-2008 |
| 20090095424 | SHOWERHEAD ELECTRODE ASSEMBLIES AND PLASMA PROCESSING CHAMBERS INCORPORATING THE SAME - The present invention relates generally to plasma processing and, more particularly, to plasma processing chambers and electrode assemblies used therein. According to one embodiment of the present invention, an electrode assembly is provided comprising a thermal control plate, a silicon-based showerhead electrode, and securing hardware, wherein the silicon-based showerhead electrode comprises a plurality of partial recesses formed in the backside of the silicon-based showerhead electrode and backside inserts positioned in the partial recesses. The thermal control plate comprises securing hardware passages configured to permit securing hardware to access the backside inserts. The securing hardware and the backside inserts are configured to maintain engagement of the thermal control plate and the silicon-based showerhead electrode and to permit disengagement of the thermal control plate and the silicon-based showerhead electrode while isolating the silicon-based electrode material of the silicon-based showerhead electrode from frictional contact with the securing hardware during disengagement. | 04-16-2009 |
| 20090236040 | ELECTRODE ASSEMBLY AND PLASMA PROCESSING CHAMBER UTILIZING THERMALLY CONDUCTIVE GASKET - The present invention relates generally to plasma processing and, more particularly, to plasma processing chambers and electrode assemblies used therein. According to one embodiment of the present invention, an electrode assembly is provided comprising a thermal control plate, a silicon-based showerhead electrode, and a thermally conductive gasket, wherein respective profiles of a frontside of the thermal control plate and a backside of the showerhead electrode cooperate to define a disjointed thermal interface comprising portions proximal to showerhead passages of the showerhead electrode and portions displaced from the showerhead passages. The displaced portions are recessed relative to the proximal portions and are separated from the showerhead passages by the proximal portions of the thermal interface. The gasket is positioned along the displaced portions such that the gasket is isolated from the showerhead passages and may facilitate heat transfer across the thermal interface from the showerhead electrode to the thermal control plate. | 09-24-2009 |
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| 20100252200 | GROUNDED CONFINEMENT RING HAVING LARGE SURFACE AREA - A wafer processing system is provided for use with a driver and a material supply source. The driver is operable to generate a driving signal. The material supply source is operable to provide a material. The wafer processing system includes an upper confinement chamber portion, a lower confinement chamber portion, a confinement ring, and an electro-static chuck. The upper confinement chamber portion has an upper confinement chamber portion inner surface. The lower confinement chamber portion is detachably disposed in contact with the upper confinement chamber portion. The lower confinement chamber portion has a lower confinement chamber portion inner surface. The confinement ring is removably disposed in contact with the upper confinement chamber portion inner surface and the lower confinement chamber portion inner surface. The confinement ring has a confinement ring inner surface. The electro-static chuck has an electro-static chuck upper surface and is arranged to receive the driving signal. The upper confinement chamber portion, the lower confinement chamber portion, the confinement ring and the electro-static chuck are arranged such that the upper confinement chamber portion inner surface, the lower confinement chamber portion inner surface, the confinement ring inner surface and the electro-static chuck upper surface surround a plasma-forming space that is capable of receiving the material. The upper confinement chamber portion, the lower confinement chamber portion, the confinement ring and the electro-static chuck are operable to transform the material into a plasma when the electro-static chuck receives the driving signal. The confinement ring has a non-rectangular cross section. | 10-07-2010 |
| 20100253224 | MODULATED MULTI-FREQUENCY PROCESSING METHOD - A method is provided for operating a processing system having a space therein arranged to receive a gas and an electromagnetic field generating portion operable to generate an electromagnetic field within the space. The method includes providing a gas into the space, and operating the electromagnetic field generating portion with a driving potential to generate an electromagnetic field within the space to transform at least a portion of the gas into plasma. The driving potential as a function of time is based on a first potential function portion and a second potential function portion. The first potential function portion comprises a first continuous periodic portion having a first amplitude and a first frequency. The second potential function portion comprises a second periodic portion having an maximum amplitude portion, and minimum amplitude portion and a duty cycle. The maximum amplitude portion is a higher amplitude than the minimum amplitude portion. The duty cycle is the ratio of a duration of the maximum amplitude portion to the sum of the duration of the maximum amplitude portion and the duration of the minimum amplitude portion. The second periodic portion additionally has a second frequency during the maximum amplitude portion. An amplitude modulation of the second periodic portion is phase locked to the first continuous periodic portion. | 10-07-2010 |
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| 20080237187 | METHOD AND APPARATUS FOR INDUCING DC VOLTAGE ON WAFER-FACING ELECTRODE - A method for processing a substrate is disclosed. The method includes supporting the substrate in the plasma-processing chamber configured with a first electrode and a second electrode. The method also includes coupling a passive radio frequency (RF) circuit to the second electrode, the passive RF circuit being configured to adjust one or more of an RF impedance, an RF voltage potential, and a DC bias potential on the second electrode. | 10-02-2008 |
| 20080241420 | METHOD AND APPARATUS FOR DC VOLTAGE CONTROL ON RF-POWERED ELECTRODE - In a plasma processing chamber, a method for processing a substrate is provided. The method includes supporting the substrate in the plasma processing chamber configured with an upper electrode (UE) and a lower electrode (LE), configuring at least one radio frequency power source to ignite plasma between the UE and the LE, and providing a conductive coupling ring, the conductive coupling ring is coupled to the LE to provide a conductive path. The method further includes providing a plasma-facing-substrate-periphery (PFSP) ring, the PFSP ring being disposed above the conductive coupling ring. The method yet further includes coupling the PFSP ring to at least one of a direct current (DC) ground through an RF filter, the DC ground through the RF filter and a variable resistor, a positive DC power source through the RF filter, and a negative DC power source through the RF filter to control plasma processing parameters. | 10-02-2008 |
| 20110132874 | SMALL PLASMA CHAMBER SYSTEMS AND METHODS - A plasma etch processing tool is disclosed. The plasma etch processing tool, comprising a substrate support for supporting a substrate having a substrate surface area, a processing head including a plasma microchamber having an open side that is oriented over the substrate support, the open side of the plasma microchamber having a process area that is less than the substrate surface area, a sealing structure defined between the substrate support and the processing head and a power supply connected to the plasma microchamber and the substrate support. A method for performing a plasma etch is also disclosed. | 06-09-2011 |
