Patent application number | Description | Published |
20080210376 | PLASMA PROCESSING APPARATUS CAPABLE OF CONTROLLING PLASMA EMISSION INTENSITY - An antenna electrode having a substantially circular shape, is arranged on a plane of a processing vessel, which is located opposite to a stage for mounting a sample within the processing vessel, and positioned parallel to the stage. An emission monitor monitors emission intensity of plasma present in at least 3 different points along a radial direction of the antenna electrode. A control unit adjusts an energizing current supplied to an external coil for forming a magnetic field within the processing vessel. The control unit adjusts the energizing current supplied to the external coil based upon the monitoring result obtained from the emission monitor so as to control the emission intensity of the plasma to become uniform emission intensity. | 09-04-2008 |
20090000741 | Vacuum prcessing apparatus and vacuum processing method of sample - A vacuum processing apparatus includes a vacuum container which can be depressurized, a sample holder inside of the vacuum container for mounting a sample to be processed, wherein films laid over a surface of the sample are etched with plasma generated in a space above the sample holder. The apparatus further includes a gas supply channel for feeding a heat conducting gas between a sample mounting surface and the backside of the sample, and a pressure control unit for changing stepwise the pressure of the gas supply channel between the sample mounting surface and the backside of the sample in accordance with the progress of the processing of the films of the sample by the etching. | 01-01-2009 |
20090020227 | Vacuum processing apparatus for semiconductor fabrication apparatus - A vacuum processing apparatus includes a vacuum processing chamber, a high-vacuum exhaust pump for exhausting the vacuum processing chamber in vacuum, a low-vacuum exhaust pump connected to the downstream side of the high-vacuum exhaust pump, a lower electrode having mounted thereon a substrate to be processed, and a cooling gas supply unit for supplying the cooling gas between the substrate and the lower electrode. The cooling gas supply unit includes a cooling gas supply system and a cooling gas supply line. The cooling gas supply line is connected, through a first waste gas valve, to a waste gas line for exhausting the cooling gas. The waste gas line is connected just above the high-vacuum exhaust pump through a second waste gas valve, and to the exhaust gas line between the high-vacuum exhaust pump and the low-vacuum exhaust pump through a third waste gas valve. | 01-22-2009 |
20090065145 | Plasma Processing Apparatus And Method Capable Of Adjusting Temperature Within Sample Table - A plasma processing apparatus includes a processing chamber disposed within a vacuum vessel for forming therein a plasma, a sample table disposed beneath the processing chamber for mounting on its upper surface a workpiece to be processed, an electrode disposed within the sample table for allowing application of high frequency power for adjustment of a surface potential of the workpiece, a passage disposed within the sample table for causing a refrigerant to flow therein, and a control device for adjusting a temperature of the refrigerant flowing in the passage. The workpiece is processed using a plasma created within the processing chamber under application of the high frequency power. Before application of the high frequency power, the control device starts to adjust the temperature of the refrigerant based on information of the high frequency power so that it has a predetermined value. | 03-12-2009 |
20090078375 | Plasma Processing Apparatus And Method - A plasma processing apparatus includes in a processing chamber, a sample stage, a bell jar, a coil antenna, a Faraday shield, and a gas ring member located below a skirt portion of the bell jar and above the sample stage. The gas ring member supplies a process gas to a plasma generating space inside the bell jar from a gas port disposed on an inner surface of the gas ring member. A ring shaped plate is disposed near a periphery of the Faraday shield and having an inner surface facing and covering along the inner surface of the gas ring member and being spaced from the inner surface of the gas ring member so as to delimit a gap therebetween. | 03-26-2009 |
20090078563 | Plasma Processing Apparatus And Method Capable of Adjusting Temperature Within Sample Table - A plasma processing method includes mounting a workpiece to be processed on an upper surface of a sample table disposed at a lower portion of an interior of a processing chamber disposed within a vacuum vessel and processing the workpiece by use of plasma formed within the processing chamber while applying thereto a first high frequency power for adjustment of a surface potential of the workpiece which is disposed on the sample table. The method further includes starting, prior to application of the first high frequency power, to adjust a temperature of a heat exchange medium flowing in a passage disposed inside of the sample table so as to have a predetermined value based on information of this high frequency power. | 03-26-2009 |
20090114152 | APPARATUS FOR PLASMA TREATMENT - An apparatus for treating with plasma a specimen mounted on a specimen table and a next specimen mounted thereon after the treatment of the specimen is completed in a vacuumed container, comprises, a detector for measuring a temperature of the specimen table, and an adjustor for adjusting the temperature of the specimen table obtained when the next specimen is treated to have a value determined from a predetermined change in temperature of the specimen and one of the temperature of the specimen table measured by the detector and a temperature of returning refrigerant obtained after the treatment of the specimen is started, wherein the adjustor obtains the predetermined change in temperature of the specimen from the temperatures of the specimen measured in respective conditions in each of which conditions the treatment is continued until a changing rate of the temperature of the specimen becomes not more than a predetermined degree. | 05-07-2009 |
20100018649 | Plasma Processing Apparatus And Method - A plasma processing apparatus includes a sample stage disposed at a lower part of a processing chamber, a bell jar made of an insulative material constituting an upper portion of a vacuum vessel, a coil antenna disposed outside and around the bell jar to which electric power is supplied so as to generate the plasma in a plasma generating space inside of the bell jar, and a Faraday shield mounted on the bell jar and disposed between an external surface of the bell jar and the coil antenna. A ring shaped member made of an electric conductive material is disposed inside of an inner surface of a ring portion of the processing chamber located below a skirt portion of the bell jar and constitutes a part of the processing chamber. The ring shaped member extends upwardly so as to cover a portion of an inner surface of the bell jar. | 01-28-2010 |
20100163187 | PLASMA PROCESSING APPARATUS - A plasma processing apparatus includes a vacuum chamber, a sample table that places the sample in the vacuum chamber, and a gas supply unit faced to the sample table and having a gas supply surface with a diameter larger than that of the sample, wherein gas injection holes each having identical diameter are provided concentrically on the gas supply surface, a hole number density of the gas injection holes present in an outer diameter position of the sample or in an outside of the outer diameter position is made higher than that of the gas injection holes present inside the outer diameter position of the sample, and a diameter of the gas injection holes present in the outer diameter position of the sample or in the outside from the outer diameter position is larger than that of the gas injection holes present inside the diameter of the sample. | 07-01-2010 |
20130001197 | PLASMA PROCESSING METHOD - In a plasma processing method for conducting etching on an object to be processed by generating plasma from depositional gas introduced into a processing chamber and exposing the object to be processed to the plasma in a state in which radio frequency power is applied, the object to be processed is etched under etching conditions that a deposit film on an inner wall of the processing chamber becomes amorphous by repeating a first period during which the object to be processed is exposed to plasma and a second period during which the object to be processed is exposed to plasma and an etching rate is lower as compared with the first period. Consequently, particles due to increase in the number of processed sheets of the object to be processed can be suppressed. | 01-03-2013 |