A model-based control method includes: (a) acquiring temperature control data including temperature data of each of a plurality of zones of a temperature control member provided in a processing apparatus, temperature of each of the plurality of zones being individually controllable; (b) for each zone, specifying a temperature of another zone that is weight-averaged by a weighting coefficient determined according to a magnitude of heat transfer with the another zone; (c) for each zone, specifying a parameter of a state-space model of multi-input/single-output using the specified temperature of the another zone and the temperature control data; (d) creating a state-space model of multi-input/multi-output by assigning the specified parameter of the state-space model of multi-input/single-output to each element of the state-space model of multi-input/multi-output; and (e) controlling the temperature of each of the plurality of zones of the temperature control member using the state-space model of multi-input/multi-output.

A wafer placement table includes a ceramic base having a wafer placement surface on its top surface and incorporating an electrode, a cooling base provided on a bottom surface side of the ceramic base, and a refrigerant flow channel groove provided in the cooling base so as to open at a bottom surface of the cooling base.

A plasma processing apparatus includes an electrostatic chuck, a connection surface being provided at a periphery of the electrostatic chuck; an edge adjustment ring, arranged around the electrostatic chuck in a circumferential direction, an inner wall of the edge adjustment ring being opposite to an outer wall of the electrostatic chuck; and an edge ring, arranged around the electrostatic chuck and above the connection surface, and located above the edge adjustment ring. The edge adjustment ring includes an annular body and an annular protrusion protruding toward the edge ring, and the annular body is relatively close to the electrostatic chuck.

A substrate support is provided in a chamber of a plasma processing apparatus according to an exemplary embodiment. The substrate support has a lower electrode and an electrostatic chuck. A matching circuit is connected between a power source and the lower electrode. A first electrical path connects the matching circuit and the lower electrode to each other. A second electrical path different from the lower electrode is provided to supply electric power from the matching circuit to a focus ring. A sheath adjuster is configured to adjust a position of an upper end of a sheath on/above the focus ring. A variable impedance circuit is provided on the first or second electrical path.

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.

A plasma processing apparatus includes a mounting table, an acquisition unit, a calculation unit, and an elevation control unit. The mounting table mounts thereon a target object as a plasma processing target. The elevation mechanism vertically moves a focus ring surrounding the target object. The acquisition unit acquires state information indicating a measured state of the target object. The calculation unit calculates a height of the focus ring at which positional relation between an upper surface of the target object and an upper surface of the focus ring satisfies a predetermined distance based on the state of the target object that is indicated by the state information acquired by the acquisition unit. The elevation control unit controls the elevation mechanism to vertically move the focus ring to the height calculated by the calculation unit.

A disclosed substrate support includes a base and first and second supports. A refrigerant flow path is formed inside the base. The base has first to third regions. The first region has a circular upper surface. The second region surrounds the first region. The third region surrounds the second region. The upper surface of the first region, the upper surface of the second region, and the upper surface of the third region are flat and continuous. The first support is provided on the first region and is configured to support the substrate placed thereon. The second support is provided on the third region to surround the first support, is configured to support the edge ring placed thereon, and is separated from the first support.

In some examples, a flat Bottom Shadow Ring (fBSR) is provided for processing a substrate in a processing chamber. An example fBSR comprises an overhang for covering an edge of the substrate in the processing chamber. The overhang includes a fiat zone that extends radially outward over the outer edge of the substrate.

A component for use in a semiconductor processing chamber is provided. A component body of a dielectric material has a semiconductor processing facing surface. A coating of a dielectric material is on at least the semiconductor processing facing surface, wherein the dielectric material of the component body has a same stoichiometry as the dielectric material of the coating.

A component for a film formation apparatus or an etching apparatus used for manufacturing semiconductors, the component including a disk-shaped or ring-shaped SiC film having an outer diameter of 300 mm or more and a thickness of 3 mm or more. The component does not include an interface extending perpendicularly to a thickness direction of the SiC film on an exposed side surface of the SiC film.