A transfer module for transferring power to a non-thermal plasma generator includes a power cable; a first epoxy; a second epoxy; an interface between the first epoxy and the second epoxy; and a well; the power cable including a conductor for conducting electrical power and an insulation layer for surrounding a portion of the conductor; the first epoxy being located within the well to surround the insulation layer; the second epoxy being located within the well to surround the conductor located within the well; the second epoxy being located outside the well to surround the conductor located outside the well.

A gas supply member according to an embodiment includes: a base material that has a gas flow path capable of flowing a gas from an upstream side to a downstream side, a main surface arranged on the downstream side of the gas flow path in a direction intersecting an extending direction of the gas flow path, and a discharge port connecting the gas flow path and the main surface; and a film that contains at least one of yttria, yttrium oxyfluoride, yttrium fluoride, alumina, and aluminum nitride and covers the main surface and a surface of the discharge port of the base material. The film covers the main surface and the surface of the discharge port such that a surface of the film does not have a surface orientation portion of which a normal intersects a normal of the main surface at 45° to 75°.

The present invention generally relates method and apparatus for detecting erosion to a ring assembly used in an etching or other plasma processing chamber. In one embodiment, a method begins by obtaining a metric indicative of wear on a ring assembly disposed on a substrate support in a plasma processing chamber prior to processing with plasma in the plasma processing chamber. The metric for the ring assembly is monitored with a sensor. A determination is made if the metric exceeds a threshold and generating a signal in response to the metric exceeding the threshold.

A substrate processing apparatus includes a chamber having a sidewall; a susceptor mounting a substrate inside the chamber, an upper dome covering an upper surface of the chamber and formed of a transparent dielectric material, and an antenna disposed on the upper dome to generate inductively coupled plasma. The antenna includes two one-turn unit antennas, the wo one-turn unit antennas each has an upper surface and a lower surface and are disposed to overlap each other on the upper surfaces and the lower surfaces of the two one-turn unit antennas, the two one-turn unit antennas are connected in parallel and are connected to a radio-frequency (RF) power supply, and a width direction of each of the one-turn unit antennas stands upright vertically.

Plasma viewports for high-temperature environments in semiconductor processing equipment are disclosed; such view-ports may use a triple-window design, with each window providing particular functionality.

A processing method according to one aspect of the present disclosure includes varying pressure of a processing chamber in a state in which a plasma of a purge gas is formed in the processing chamber, the varying including removing a film deposited in the processing chamber, with the formed plasma.

A bonding system includes a surface modifying apparatus configured to modify a bonding surface of a first substrate and a bonding surface of a second substrate; a surface hydrophilizing apparatus configured to hydrophilize the modified bonding surface of the first substrate and the modified bonding surface of the second substrate; a bonding apparatus configured to perform bonding of the hydrophilized bonding surface of the first substrate and the hydrophilized bonding surface of the second substrate in a state that the bonding surfaces face each other; and a cleaning apparatus configured to clean, before the bonding is performed, a non-bonding surface of, between the first substrate and the second substrate, at least one which is maintained flat when the bonding is performed, the not-bonding surface being opposite to the bonding surface.

A transfer module for transferring power to a non-thermal plasma generator includes a power cable; a first epoxy; a second epoxy; an interface between the first epoxy and the second epoxy; and a well; the power cable including a conductor for conducting electrical power and an insulation layer for surrounding a portion of the conductor; the first epoxy being located within the well to surround the insulation layer; the second epoxy being located within the well to surround the conductor located within the well; the second epoxy being located outside the well to surround the conductor located outside the well.

A plasma processing apparatus includes a chamber providing a space for processing a substrate, a substrate stage configured to support the substrate within the chamber and including a lower electrode, an upper electrode facing the lower electrode, a focus ring in or on an upper peripheral region of the substrate stage to surround the substrate, and a plasma adjustment assembly in at least one of a first position between the upper electrode and the lower electrode and a second position between the focus ring and the lower electrode, the plasma adjustment assembly including a photoreactive material layer and a plurality of light sources configured to irradiate light onto a local region of the photoreactive material layer. A capacitance of the local region is changed as the light is irradiated to the local region.

Disclosed are a ceramic structure, a lower electrode, and a dry etching machine. The ceramic structure includes at least two ceramic plates, and a clamping slot and a boss are arranged on one side of each ceramic plate close to a neighboring ceramic plate. In two neighboring ceramic plates, a boss of one ceramic plate is clamped into a clamping slot of the other ceramic plate, so that no through gap is generated between the two neighboring ceramic plates in a thickness direction.