Abstract: A vacuum processing apparatus that can excellently perform uniform processing and can efficiently perform regular maintenance and occasional maintenance even in the case where the diameter of a workpiece is increased. A vacuum processing apparatus having a vacuum transport chamber includes: a lower container in a cylindrical shape; a sample stage unit including a sample stage and a ring-shaped sample stage base having a support beam disposed in axial symmetry with respect to the center axis of the sample stage; an upper container in a cylindrical shape; and a moving unit that is fixed to the sample stage base and moves the sample stage unit in the vertical direction and in the horizontal direction.

Abstract: A sample stage includes plural pushup pins that move a sample up/down above the stage, a recessed and protruding dielectric film on which the sample is loaded, a feeding port disposed on the film and through which gas is fed to a gap between the sample and the film, and openings of through-holes in which the pushup pins are housed, and the stage is connected to a feeding and evacuation conduit including a feeding path that communicates with the port and through which gas fed to the gap flows, an evacuation path that communicates with the opening and through which gas fed to the gap is discharged, and a connection path through which the feeding path and the evacuation path communicate. With communication between the feeding path and the evacuation path via the connection path interrupted, gas from the feeding path is fed to the gap and into the through-hole via the gap.

Abstract: A sample stage includes plural pushup pins that move a sample up/down above the stage, a recessed and protruding dielectric film on which the sample is loaded, a feeding port disposed on the film and through which gas is fed to a gap between the sample and the film, and openings of through-holes in which the pushup pins are housed, and the stage is connected to a feeding/evacuation conduit including a feeding-path that communicates with the port and through which gas fed to the gap flows, an evacuation-path that communicates with the opening and through which gas fed to the gap is discharged, and a connection-path through which the feeding-path and the evacuation-path communicate. With communication between the feeding-path and the evacuation-path via the connection-path interrupted, gas from the feeding-path is fed to the gap and into the through-hole via the gap.

Abstract: A plasma processing apparatus includes: a vacuum vessel, a processing chamber disposed inside of the vacuum vessel, inside of which plasma is formed, a sample stage disposed below the processing chamber, on whose upper surface a sample that is a target processed by using the plasma is mounted, a sintered plate of dielectric material constituting a mounting surface of the sample stage on which the sample is mounted, abase material of metal bonded to the sintered plate below it with a bonding layer made of an adhesive agent intervening therebetween, and a cooling medium flow channel disposed inside of the base material, through which a cooling medium flows, in which a shearing force of the bonding layer generated in a portion on the peripheral side of the sample stage is made smaller than that generated in a portion on the center side.

Abstract: A plasma processing apparatus, comprising a processing chamber within a vacuum chamber, and a sample stage arranged within the processing chamber with a sample to be processed placed on its top surface, wherein plasma is formed in the processing chamber to perform processing of the sample, wherein the sample stage is provided with an electrostatic chuck which is provided with film electrodes to which power for attraction of the sample is supplied, and upper and lower plate-like sintered bodies joined mutually with the electrodes interposed between them from above and below, and the lower sintered body has a dielectric constant higher than that of the upper sintered body.

Abstract: A vacuum processing apparatus that can excellently perform uniform processing and can efficiently perform regular maintenance and occasional maintenance even in the case where the diameter of a workpiece is increased. A vacuum processing apparatus having a vacuum transport chamber includes: a lower container in a cylindrical shape; a sample stage unit including a sample stage and a ring-shaped sample stage base having a support beam disposed in axial symmetry with respect to the center axis of the sample stage; an upper container in a cylindrical shape; and a moving unit that is fixed to the sample stage base and moves the sample stage unit in the vertical direction and in the horizontal direction.

Abstract: A plasma processing apparatus includes processing units, each of which subjects a sample to processing inside a processing chamber in a vacuum vessel, vacuum transfer chambers which are coupled to the processing units and each have an interior where a sample is transferred under reduced pressure, an intermediate chamber which has, in an interior, a space where a transferred sample is housed, a buffer chamber which is capable of housing a sample arranged in an interior of the vessel, a mounting table which is arranged in the buffer chamber and is adjusted to a prescribed temperature and on which a sample is placed, an opening through which a sample is taken in or out, and a lid member which opens or hermetically closes the opening, and a sample is transferred between the processing unit and a lock chamber via the buffer chamber.

Abstract: A vacuum processing apparatus includes a robot connected to a vacuum container to carry a wafer on one of its two arms to or from a processing chamber; a unit to detect an amount of deviation of the wafer from a predetermined wafer mounting position on the arm that may occur when the robot carries the wafer into or out of the processing chamber; and an adjusting device to adjust the operation of the robot based on the detected amount of deviation. The adjusting device adjusts the robot operation based on the result of a teaching operation performed in advance. After being subjected to the initial teaching operation, the robot again undergoes a second teaching operation according to the information on the amount of wafer position deviation that is detected by moving the wafer in a predetermined transfer pattern, before the wafer processing is performed.

Abstract: A vacuum processing apparatus that includes a vacuum vessel; an opening disposed in a wall of the vacuum vessel, through which a sample to be processed is taken in and out; a valve body disposed outside the wall for airtightly sealing the opening; and a drive unit driving the valve body to carry out a sealing or opening operation. The drive unit includes a first member coupled to an actuator that moves along a substantially linear first direction as a result of operation of the actuator, and a second member coupled to the first member that moves along a substantially linear second direction that intersects with the first direction. The valve body, coupled to the second member, seals the opening as a result of movement of the second member.

Abstract: A plasma processing apparatus is provided which includes an inert gas supply route connected to a process gas supply piping which supplies a process gas into a processing chamber in a vacuum vessel, a valve which opens or closes the inert gas supply route, and an adjuster which adjusts a flow rate of the inert gas. When processing of a sample is complete, an inert gas is supplied into the process gas supply piping so that a pressure in the process gas supply piping is maintained at a pressure higher than a pressure at which a compound of the process gas and a material of an inner wall of the process gas supply piping vaporizes.

Abstract: A plasma processing apparatus is provided which includes an inert gas supply route connected to a process gas supply piping which supplies a process gas into a processing chamber in a vacuum vessel, a valve which opens or closes the inert gas supply route, and an adjuster which adjusts a flow rate of the inert gas. When processing of a sample is complete, an inert gas is supplied into the process gas supply piping so that a pressure in the process gas supply piping is maintained at a pressure higher than a pressure at which a compound of the process gas and a material of an inner wall of the process gas supply piping vaporizes.

Abstract: A vacuum processing apparatus includes a transfer unit disposed at a center thereof, plural processing chambers, each processing chamber having a processing table for supporting an object to be processed and carrying out processing using a gas, and a mass flow controller unit interposed between two of the processing chambers for supplying gas to the chambers.

Abstract: A vacuum processing apparatus includes a robot connected to a vacuum container to carry a wafer on one of its two arms to or from a processing chamber; a unit to detect an amount of deviation of the wafer from a predetermined wafer mounting position on the arm that may occur when the robot carries the wafer into or out of the processing chamber; and an adjusting device to adjust the operation of the robot based on the detected amount of deviation. The adjusting device adjusts the robot operation based on the result of a teaching operation performed in advance. After being subjected to the initial teaching operation, the robot again undergoes a second teaching operation according to the information on the amount of wafer position deviation that is detected by moving the wafer in a predetermined transfer pattern, before the wafer processing is performed.

Abstract: The invention provides a highly reliable plasma processing apparatus having stable sealing performance. The vacuum processing apparatus comprises a vacuum vessel having its inside decompressed; an opening disposed in a wall of the vacuum vessel for communicating the inside with the outside thereof and through which a sample to be processed is taken in and out; a valve body 701 disposed outside the wall for airtightly sealing or opening the opening; and a drive unit for driving the valve body to carry out the sealing or opening operation, the drive unit comprising a first member 705 coupled to an actuator 702 that moves along a substantially linear first direction as a result of operation of the actuator, a second member 706 coupled to the first member 705 that moves along a substantially linear second direction that intersects with the first direction, and the valve body 701 coupled to the second member that seals the opening as a result of the movement of the second member.

Abstract: A plasma processing apparatus for generating highly-uniform and stable plasma. In an apparatus for generating plasma by using a ? wave, concerning a method for rotating the ? wave in terms of time, a plurality of (larger than two and smaller than four) waveguides are used, then forming an angle between the respective waveguides, and setting a phase difference between respective electric fields therein. This configuration allows introduction of the circularly polarized wave into a processing chamber. At this time, there are provided configuration components such as a waveguide locating method, a unit therefor, a ?-wave merging box, and a reflective-wave control unit using a reflection control chamber.

Abstract: A vacuum processing apparatus that includes a vacuum vessel; an opening disposed in a wall of the vacuum vessel, through which a sample to be processed is taken in and out; a valve body disposed outside the wall for airtightly sealing the opening; and a drive unit driving the valve body to carry out a sealing or opening operation. The drive unit includes a first member coupled to an actuator that moves along a substantially linear first direction as a result of operation of the actuator, and a second member coupled to the first member that moves along a substantially linear second direction that intersects with the first direction. The valve body, coupled to the second member, seals the opening as a result of movement of the second member.

Abstract: The invention provides a plasma treatment apparatus or a plasma treatment method having a high productivity while maintaining a stable treatment performance.

Abstract: A vacuum processing apparatus includes vacuum processing vessels each having a processing chamber with a pressure-reduced interior space, a vacuum transfer vessel which is coupled to the vacuum vessels disposed therearound and which has a low-pressure interior space in which a to-be-processed workpiece is conveyed, an atmospheric air transfer vessel which is coupled to the front side of the vacuum transfer vessel and which includes on its front face side cassette tables mounting thereon a cassette with the workpiece received therein for conveying the workpiece in an interior space under an atmospheric pressure, a position-aligning machine disposed within the atmospheric air transfer vessel at one of right and left ends for adjusting a position of the workpiece, and an adjuster disposed between lower part of this machine and a floor face for adjusting the supply of a fluid being fed to the vacuum processing vessels.

Abstract: A plasma processing apparatus which contributes to reducing required time for maintenance and thereby to enhancing the efficiency of processing and that of apparatus operation is to be provided. A vacuum processing apparatus comprises a vacuum vessel in which a substrate-shaped sample is arranged in an internally arranged processing chamber in which the pressure is reduced; a transfer chamber to which the vacuum vessel is linked and through whose inside reduced in pressure the sample is transferred; a passage which establishes communication between the transfer chamber and the vacuum vessel in a state in which the transfer chamber and the processing chamber are linked to each other and through whose inside the sample not yet processed or already processed is transferred; and a covering member which is removably coupled to cover the internal wall face of the passage, wherein the sample is processed within the processing chamber with a plasma formed in the processing chamber.

Abstract: A vacuum processing apparatus includes a transfer unit disposed at a center thereof, plural processing chambers, each processing chamber having a processing table for supporting an object to be processed and carrying out processing using a gas, and a mass flow controller unit interposed between two of the processing chambers for supplying gas to the chambers.