Abstract: A plasma processing apparatus or a plasma processing method that processes a wafer to be processed, which is placed on a surface of a sample stage arranged in a processing chamber inside a vacuum container, using a plasma formed in the processing chamber, the apparatus or method including processing the wafer by adjusting a first high-frequency power to be supplied to a first electrode arranged inside the sample stage and a second high-frequency power to be supplied, via a resonant circuit, to a second electrode which is arranged in an inner side of a ring-shaped member made of a dielectric arranged on an outer peripheral side of a surface of the sample stage on which the wafer is placed, during the processing.

Abstract: A plasma processing device that includes a processing chamber which is disposed in a vacuum vessel and is decompressed internally, a sample stage which is disposed in the processing chamber and on which a sample of a process target is disposed and held, and a plasma formation unit which forms plasma using process gas and processes the sample using the plasma, and the plasma processing device includes: a dielectric film which is disposed on a metallic base configuring the sample stage and connected to a ground and includes a film-like electrode supplied with high-frequency power internally; a plurality of elements which are disposed in a space in the base and have a heat generation or cooling function; and a feeding path which supplies power to the plurality of elements, wherein a filter to suppress a high frequency is not provided on the feeding path.

Abstract: To improve processing uniformity by improving a working characteristic in an edge exclusion region. Provided is a plasma processing apparatus for processing a sample by generating plasma in a vacuum vessel to which a processing gas is supplied and that is exhausted to a predetermined pressure and by applying a radio frequency bias to a sample placed in the vacuum vessel, wherein a conductive radio frequency ring to which a radio frequency bias power is applied is arranged in a stepped part formed outside a convex part of the sample stage on which the wafer is mounted, and a dielectric cover ring is provided in the stepped part, covering the radio frequency ring, the cover ring substantially blocks penetration of the radio frequency power to the plasma from the radio frequency ring, and the radio frequency ring top surface is set higher than a wafer top surface.

Abstract: A plasma processing device that includes a processing chamber which is disposed in a vacuum vessel and is decompressed internally, a sample stage which is disposed in the processing chamber and on which a sample of a process target is disposed and held, and a plasma formation unit which forms plasma using process gas and processes the sample using the plasma, and the plasma processing device includes: a dielectric film which is disposed on a metallic base configuring the sample stage and connected to a ground and includes a film-like electrode supplied with high-frequency power internally; a plurality of elements which are disposed in a space in the base and have a heat generation or cooling function; and a feeding path which supplies power to the plurality of elements, wherein a filter to suppress a high frequency is not provided on the feeding path.

Abstract: A plasma processing device that includes a processing chamber which is disposed in a vacuum vessel and is decompressed internally, a sample stage which is disposed in the processing chamber and on which a sample of a process target is disposed and held, and a plasma formation unit which forms plasma using process gas and processes the sample using the plasma, and the plasma processing device includes: a dielectric film which is disposed on a metallic base configuring the sample stage and connected to a ground and includes a film-like electrode supplied with high-frequency power internally; a plurality of elements which are disposed in a space in the base and have a heat generation or cooling function; and a feeding path which supplies power to the plurality of elements, wherein a filter to suppress a high frequency is not provided on the feeding path.

Abstract: A plasma processing apparatus or a plasma processing method that processes a wafer to be processed, which is placed on a surface of a sample stage arranged in a processing chamber inside a vacuum container, using a plasma formed in the processing chamber, the apparatus or method including processing the wafer by adjusting a first high-frequency power to be supplied to a first electrode arranged inside the sample stage and a second high-frequency power to be supplied, via a resonant circuit, to a second electrode which is arranged in an inner side of a ring-shaped member made of a dielectric arranged on an outer peripheral side of a surface of the sample stage on which the wafer is placed, during the processing.

Abstract: A plasma processing apparatus or a plasma processing method that processes a wafer to be processed, which is placed on a surface of a sample stage arranged in a processing chamber inside a vacuum container, using a plasma formed in the processing chamber, the apparatus or method including processing the wafer by adjusting a first high-frequency power to be supplied to a first electrode arranged inside the sample stage and a second high-frequency power to be supplied, via a resonant circuit, to a second electrode which is arranged in an inner side of a ring-shaped member made of a dielectric arranged on an outer peripheral side of a surface of the sample stage on which the wafer is placed, during the processing.

Abstract: The reliability of a plasma processing apparatus can be improved, and the yield of plasma processing can be improved. A plasma etching apparatus 100 has a susceptor ring 113 covering the surface of a sample stage, a conductor ring 131 disposed in the interior of the susceptor ring 113 and to which second high frequency electric power is supplied from a second high frequency power source, and an electric power supply connector 161 configuring a path for supplying the second high frequency electric power to the conductor ring 131. Further, the electric power supply connector 161 includes a plate spring 135 disposed in the interior of an insulating boss 144 disposed in a through hole 120c of the sample stage and having resiliency in such a manner that the plate spring 135 is connected to an upper terminal 143 and a lower terminal 145, is biased in an up-down direction P, and is expanded and contracted.

Abstract: The reliability of a plasma processing apparatus can be improved, and the yield of plasma processing can be improved. A plasma etching apparatus 100 has a susceptor ring 113 covering the surface of a sample stage, a conductor ring 131 disposed in the interior of the susceptor ring 113 and to which second high frequency electric power is supplied from a second high frequency power source, and an electric power supply connector 161 configuring a path for supplying the second high frequency electric power to the conductor ring 131. Further, the electric power supply connector 161 includes a plate spring 135 disposed in the interior of an insulating boss 144 disposed in a through hole 120c of the sample stage and having resiliency in such a manner that the plate spring 135 is connected to an upper terminal 143 and a lower terminal 145, is biased in an up-down direction P, and is expanded and contracted.

Abstract: A plasma processing apparatus or a plasma processing method that processes a wafer to be processed, which is placed on a surface of a sample stage arranged in a processing chamber inside a vacuum container, using a plasma formed in the processing chamber, the apparatus or method including processing the wafer by adjusting a first high-frequency power to be supplied to a first electrode arranged inside the sample stage and a second high-frequency power to be supplied, via a resonant circuit, to a second electrode which is arranged in an inner side of a ring-shaped member made of a dielectric arranged on an outer peripheral side of a surface of the sample stage on which the wafer is placed, during the processing.

Abstract: To improve processing uniformity by improving a working characteristic in an edge exclusion region. Provided is a plasma processing apparatus for processing a sample by generating plasma in a vacuum vessel to which a processing gas is supplied and that is exhausted to a predetermined pressure and by applying a radio frequency bias to a sample placed in the vacuum vessel, wherein a conductive radio frequency ring to which a radio frequency bias power is applied is arranged in a stepped part formed outside a convex part of the sample stage on which the wafer is mounted, and a dielectric cover ring is provided in the stepped part, covering the radio frequency ring, the cover ring substantially blocks penetration of the radio frequency power to the plasma from the radio frequency ring, and the radio frequency ring top surface is set higher than a wafer top surface.

Abstract: A plasma processing apparatus or a plasma processing method that processes a wafer to be processed, which is placed on a surface of a sample stage arranged in a processing chamber inside a vacuum container, using a plasma formed in the processing chamber, the apparatus or method including processing the wafer by adjusting a first high-frequency power to be supplied to a first electrode arranged inside the sample stage and a second high-frequency power to be supplied, via a resonant circuit, to a second electrode which is arranged in an inner side of a ring-shaped member made of a dielectric arranged on an outer peripheral side of a surface of the sample stage on which the wafer is placed, during the processing.

Abstract: In a plasma processing apparatus, a connector section with the film-like electrode of a sintered plate of a sample stage to which high-frequency power is supplied includes a conductor section disposed inside a through hole, an upper part of which is bonded to the film-like electrode and a lower part of which is connected to an end of a power supply path of the high-frequency power, and a boss disposed between the conductor section and a substrate surrounding an outer periphery of the conductor section inside the through hole and made of an insulating material. Upper ends of a rod-like member at the center of the conductor section and a socket surrounding the rod-like member are disposed at a position higher than the boss, and an adhesive is prevented from entering between the socket and the rod-like member in the upper end of the socket.

Abstract: A plasma processing device that includes a processing chamber which is disposed in a vacuum vessel and is decompressed internally, a sample stage which is disposed in the processing chamber and on which a sample of a process target is disposed and held, and a plasma formation unit which forms plasma using process gas and processes the sample using the plasma, and the plasma processing device includes: a dielectric film which is disposed on a metallic base configuring the sample stage and connected to a ground and includes a film-like electrode supplied with high-frequency power internally; a plurality of elements which are disposed in a space in the base and have a heat generation or cooling function; and a feeding path which supplies power to the plurality of elements, wherein a filter to suppress a high frequency is not provided on the feeding path.

Abstract: A plasma processing apparatus or a plasma processing method that processes a wafer to be processed, which is placed on a surface of a sample stage arranged in a processing chamber inside a vacuum container, using a plasma formed in the processing chamber, the apparatus or method including processing the wafer by adjusting a first high-frequency power to be supplied to a first electrode arranged inside the sample stage and a second high-frequency power to be supplied, via a resonant circuit, to a second electrode which is arranged in an inner side of a ring-shaped member made of a dielectric arranged on an outer peripheral side of a surface of the sample stage on which the wafer is placed, during the processing.

Abstract: There is provided a VUV light processing apparatus that can apply vacuum ultraviolet light to the entire surface of a wafer in excellent reproducibility and can process the wafer with VUV (vacuum ultraviolet) light in excellent reproducibility. A VUV light processing apparatus includes: a chamber connected with a gas supply apparatus and an evacuation apparatus, the chamber being capable of reducing the pressure inside the chamber; a plasma light source that generates VUV light including a wavelength of 200 nm or less, the plasma light source including a plasma generating unit that generates plasma in the chamber; and a VUV transmission filter provided between a stage on which a sample to be processed is placed and the sample in the chamber, the VUV transmission filter transmitting the VUV light including a wavelength of 200 nm or less and not transmitting electrons, ions, and radicals in plasma, the VUV transmission filter having the outer diameter size larger than that of the sample.

Abstract: In a plasma processing apparatus, a connector section with the film-like electrode of a sintered plate of a sample stage to which high-frequency power is supplied includes a conductor section disposed inside a through hole, an upper part of which is bonded to the film-like electrode and a lower part of which is connected to an end of a power supply path of the high-frequency power, and a boss disposed between the conductor section and a substrate surrounding an outer periphery of the conductor section inside the through hole and made of an insulating material. Upper ends of a rod-like member at the center of the conductor section and a socket surrounding the rod-like member are disposed at a position higher than the boss, and an adhesive is prevented from entering between the socket and the rod-like member in the upper end of the socket.

Abstract: To improve processing uniformity by improving a working characteristic in an edge exclusion region. Provided is a plasma processing apparatus for processing a sample by generating plasma in a vacuum vessel to which a processing gas is supplied and that is exhausted to a predetermined pressure and by applying a radio frequency bias to a sample placed in the vacuum vessel, wherein a conductive radio frequency ring to which a radio frequency bias power is applied is arranged in a stepped part formed outside a convex part of the sample stage on which the wafer is mounted, and a dielectric cover ring is provided in the stepped part, covering the radio frequency ring, the cover ring substantially blocks penetration of the radio frequency power to the plasma from the radio frequency ring, and the radio frequency ring top surface is set higher than a wafer top surface.

Abstract: There is provided a VUV light processing apparatus that can apply vacuum ultraviolet light to the entire surface of a wafer in excellent reproducibility and can process the wafer with VUV (vacuum ultraviolet) light in excellent reproducibility. A VUV light processing apparatus includes: a chamber connected with a gas supply apparatus and an evacuation apparatus, the chamber being capable of reducing the pressure inside the chamber; a plasma light source that generates VUV light including a wavelength of 200 nm or less, the plasma light source including a plasma generating unit that generates plasma in the chamber; and a VUV transmission filter provided between a stage on which a sample to be processed is placed and the sample in the chamber, the VUV transmission filter transmitting the VUV light including a wavelength of 200 nm or less and not transmitting electrons, ions, and radicals in plasma, the VUV transmission filter having the outer diameter size larger than that of the sample.

Abstract: A vacuum processing method includes mounting a sample to be processed on a sample mounting surface on a sample holder placed in a vacuum container whose inside can be depressurized, feeding a processing gas and electric field to a space above the sample holder inside of the vacuum container to generate plasma, and etching films of a plurality of layers laid over the surface of the sample into a predetermined shape. A heat conducting gas is fed between the sample mounting surface and the backside of the sample, and at the same time, the pressure of the heat conducting gas is changed stepwise in accordance with the progress of the processing of the films of a plurality of layers of the sample.