Abstract: A diameter of a mounting unit of the stage of an ashing processing apparatus is less than a diameter of a mounting unit of the stage of an etching processing apparatus, and the diameter of the mounting unit of the stage of the etching processing apparatus is less than a diameter of an objective item.

Abstract: A diameter of a mounting unit of the stage of an ashing processing apparatus is less than a diameter of a mounting unit of the stage of an etching processing apparatus, and the diameter of the mounting unit of the stage of the etching processing apparatus is less than a diameter of an objective item.

Abstract: A vacuum processing apparatus includes a member having a gas passage formed in a center between the pressure adjusting valve of an exhaust system and a turbo-molecular pump, and a particle dispersion prevention unit having plural stationary blades formed to be tilted in a direction opposite the direction of the rotary blade of the turbo-molecular pump on the outer circumference of the member.

Abstract: A plasma processing method of subjecting a substance to plasma processing by using a semiconductor device manufacturing apparatus including a process chamber, a unit for supplying gas to the process chamber, an exhausting unit to reduce pressure in the process chamber, a high frequency power source for plasma generation, a coil for generating a magnetic field, and a mounted electrode for mounting the substance to be processed. The method includes steps of subjecting the substance to a predetermined plasma processing, changing the magnetic field distribution, so as to make a plasma distribution of the process chamber with respect to the surface of the substance to be processed, in a convex form, at a time of igniting the plasma and after completion of the predetermined plasma processing, as compared with a plasma distribution with respect to the surface of the substance to be processed during the predetermined plasma processing.

Abstract: A plasma processing apparatus includes a processing chamber encased in a vacuum vessel equipped with an evacuator; a sample stage located in the processing chamber and having an upper surface on which a sample as an object to be processed rests; a gas feeding unit for feeding processing gas into the processing chamber; a plurality of refrigerant ducts which are laid out in the internal of the sample stage and through which liquid refrigerant flows and can be evaporated; a cooling circuit including a compressor, a condenser, an expansion valve and a set of pipelines to connect the compressor, the condenser and the expansion valve in this order; and a selecting unit for selectively feeding the refrigerant through the plural refrigerant ducts in the different steps of the processing. The sample is processed by using plasma while the temperature of the sample stage is being controlled by the cooling circuit.

Abstract: In a plasma processing apparatus provided with control means, gas supply means includes a first gas supply path for supplying a vent gas into a processing chamber by way of a shower plate and a second gas supply path for supplying a vent gas into the processing chamber without via the shower plate, and the control means is capable of adjusting a flow rate of the vent gas of at least one of the first and second gas supply paths in such a manner that a pressure on a back side of the shower plate becomes a pressure that is a positive pressure relative to a pressure in the processing chamber and less than a withstand pressure of the shower plate.

Abstract: There is provided a means for uniformly controlling the in-plane temperature of a semiconductor wafer at high speed in a high heat input etching process. A refrigerant channel structure in a circular shape is formed in a sample stage. Due to a fact that a heat transfer coefficient of a refrigerant is largely changed from a refrigerant supply port to a refrigerant outlet port, the cross sections of the channel structure is structured so as to be increased from a first channel areas towards a second channel areas in order to make the heat transfer coefficient of the refrigerant constant in the refrigerant channel structure. Thereby, the heat transfer coefficient of the refrigerant is prevented from increasing by reducing the flow rate of the refrigerant at a dry degree area where the heat transfer coefficient of the refrigerant is increased.

Abstract: In a semiconductor manufacturing apparatus including a processing chamber, means for supplying gas to the processing chamber, evacuating means for decompressing the processing chamber, a transport chamber, means for supplying gas to the transport chamber, and evacuating means for decompressing the transport chamber, the pressure in the processing chamber is 10 to 50 Pa, the pressure in the transport chamber is set to positive pressure to the processing chamber, the differential pressure between the processing chamber and the transport chamber is 10 Pa or less, and the flow rate of the gas supplied to the processing chamber is twice or more the flow rate of gas supplied to the transport chamber.

Abstract: A chemical conversion treatment liquid which can stably form a phosphate-type chemical conversion film on a steel material for a joint portion of an oil well steel pipe containing 0.5-13% Cr is developed. Using a chemical conversion treatment liquid to which a prescribed amount of potassium is added, a chemical conversion film containing a prescribed amount of potassium compounds and having a prescribed thickness can be formed on the threaded surface of a joint portion of an oil well steel pipe.

Abstract: A wafer stage includes a first evaporator where a refrigerant circulates. The first evaporator makes up a cooling cycle with a compressor, first condenser, expansion valve, second evaporator, refrigerant thermometer, and refrigerant flowmeter. The first condenser is supplied with a heat exchange medium. The temperature of a coolant supplied to the second evaporator is measured by an inlet refrigerant thermometer and outlet refrigerant thermometer, while the flow rate of the coolant is monitored and adjusted by a flow-rate adjuster. The temperature difference in the coolant between being at the inlet and at the outlet and flow rate can be measured. Upon complete evaporation of the refrigerant in the second evaporator, the dryness of the refrigerant discharged from the wafer stage is calculated from the amount of heat absorbed from (exchanged with) the coolant, the circulation amount of the refrigerant and the refrigerant temperature to control the rotational speed of the compressor.

Abstract: A diameter of a mounting unit of the stage of an asking processing apparatus is less than a diameter of a mounting unit of the stage of an etching processing apparatus, and the diameter of the mounting unit of the stage of the etching processing apparatus is less than a diameter of an objective item.

Abstract: A semiconductor device manufacturing apparatus includes a process chamber, a conveyance chamber, a conveyance robot, a lock chamber, and a heating unit or temperature adjusting unit for reducing adherence of particles onto a substance to be processed by a thermo-phoretic force. The heating unit enables control of a temperature of the substance to be processed to be higher than a temperature of an inner wall or structural body of the process chamber or the conveyance chamber or the conveyance robot or the lock chamber, in conveying the substance to be processed. The temperature adjusting unit enables adjustment of a temperature of an inner wall or structural body of the process chamber or the conveyance chamber or the lock chamber to be lower than a temperature of the substance to be processed, in conveying the substance to be processed.

Abstract: A method of manufacturing a surface treated oil well pipe comprising performing chemical conversion treatment on an oil well pipe having a steel composition containing 0.5-13% Cr using a chemical conversion treatment liquid containing zinc and phosphoric acid or manganese and phosphoric acid and further containing potassium tetraborate to form a chemical conversion film of a zinc-phosphate type or a manganese phosphate type, wherein the chemical conversion treatment is carried out in the absence of fluoride ions.

Abstract: The present invention provides a manufacturing technique of a semiconductor device that reduces fluctuation of electric characteristic and a working size of a semiconductor device and can manufacture semiconductor devices at high quality and at high yield.

Abstract: At least a part of a discharging electromagnetic wave is introduced into a processing chamber via a transmission electrode which has characteristics to behave as a dielectric (electric insulator) for the discharging electromagnetic wave, and to behave as a material with electric conductivity for RF bias electromagnetic wave of electromagnetic wave of ion plasma oscillation.

Abstract: In a plasma processing apparatus, a check valve is installed close to a refrigerant inlet of a compressor. When performing maintenance of a sample stage, refrigerant collected from a refrigerant flow path is temporarily stored in a flow path section extending from an expansion valve to the check valve, making it possible to perform the maintenance without changing the amount of refrigerant in the refrigerating cycle. With a refrigerant storage tank, a refrigerant supply valve, and a refrigerant discharge valve included in the refrigerating cycle, when maintenance of the compressor, a condenser, or the expansion valve is performed, the refrigerant collected from the refrigerating cycle can be put in use again.

Abstract: A plasma processing method includes etching an insulating film of a sample to be processed using plasma generated from etching gas, supplying a large flow of inert gas from above the sample while having the sample mounted on a sample mounting stage, supplying deposit removal gas to only an area near a side wall of a processing chamber, and controlling a plasma density distribution to thereby vary a plasma density at a center area of the processing chamber and a plasma density at an area near the side wall of the processing chamber so as to perform a deposited film removing process for removing the film deposited on the side wall of the processing chamber.

Abstract: The invention provides a plasma etching method capable of suppressing bowing of an opening of the object to be etched, and solving the lack of opening at a high aspect ratio portion in deep hole processing having a high aspect ratio. A plasma etching method for etching an object to be etched in a plasma etching apparatus using a mask patterned and formed on the object to be etched comprises sequentially performing a first step for etching the mask while attaching deposits on a side wall of an opening close to a surface of the mask pattern of the mask using fluorocarbon gas CxFy (x=1, 2, 3, 4, 5, 6, y=4, 5, 6, 8), and a second step for etching the object to be etched while removing the deposits attached to the side wall of the opening close to the surface of the mask pattern of the mask using fluorocarbon gas.

Abstract: A plasma processing apparatus is provided which processes a sample held on a sample table arranged in a process chamber in a vacuum container by using a plasma formed in the process chamber. The plasma processing apparatus comprises: paths arranged in the sample table in which a coolant is supplied and vaporized as it flows; a refrigeration cycle having the sample table, a compressor, a condenser and an expansion valve connected in that order and having the coolant circulate therein; coolant passages to cause the coolant that has passed through the expansion valve to branch and then merge with a coolant returning from the paths in the sample table toward the compressor; and a regulator to adjust an amount of coolant passing through the paths in the sample table and circulating in the refrigeration cycle and an amount of coolant branching and flowing through the coolant passages.

Abstract: A diameter of a mounting unit of the stage of an asking processing apparatus is less than a diameter of a mounting unit of the stage of an etching processing apparatus, and the diameter of the mounting unit of the stage of the etching processing apparatus is less than a diameter of an objective item.