A substrate support that supports a substrate, includes a substrate attraction part having an attraction electrode for holding the substrate, an RF electrode part to which RF power is supplied, and a substrate temperature adjuster having a heater electrode for adjusting a temperature of the substrate. The substrate attraction part and the substrate temperature adjuster are stacked with the RF electrode part interposed therebetween.

A controller for adjusting a height of an edge ring in a substrate processing system includes an edge ring wear calculation module configured to receive at least one input indicative of one or more erosion rates of the edge ring, calculate at least one erosion rate of the edge ring based on the at least one input, and calculate an amount of erosion of the edge ring based on the at least one erosion rate. An actuator control module is configured to adjust the height of the edge ring based on the amount of erosion as calculated by the edge ring wear calculation module.

Provided is a mounting stage on which a substrate to be subjected to a plasma process is mounted. The mounting stage includes: an electrostatic chuck configured to attract the substrate and an edge ring disposed around the substrate; and supply holes through which a heat medium is supplied to a space between the electrostatic chuck and the edge ring. A groove is provided in at least one of the edge ring and the mounting stage, and the groove is not in communication with the supply holes.

An apparatus for a plasma processing includes an annular member, a support unit, a chamber and a pressure control unit. The annular member has a groove or a protrusion circumferentially formed on a bottom surface thereof, the groove or the protrusion having a first thread circumferentially formed on a side surface. The support unit has a protrusion or a groove circumferentially formed on a placing surface on which the annular member is placed such that the groove or the protrusion of the annular member is fitted with the protrusion or the groove of the support unit, the protrusion or the groove of the support unit having a second thread circumferentially formed on a side surface thereof. The chamber has therein the support unit. Further, the pressure control unit controls a pressure in the chamber such that a driving force for circumferentially rotating the annular member is obtained.

A manufacturing method of a ring-shaped element for an etcher, comprises a granulation operation comprising i) a slurry manufacturing process of preparing a slurry by mixing a raw material including boron carbide, a sinterability enhancer with a solvent; and ii) a granulation process of drying the slurry to prepare granulated raw material; a molding operation of manufacturing a green body by molding the granulated raw material; a sintering operation of carbonizing and sintering the green body to manufacture a sintered body; a shape operation of shaping the sintered body to a ring-shaped element for an etcher. The sinterability enhancer comprises one selected from the group consisting of carbon, boron oxide and combinations thereof.

A plasma processing apparatus, comprising a plasma processing chamber; a plasma generator to generate a plasma from a processing gas in the plasma processing chamber; and a substrate support disposed in the plasma processing chamber, is provided. The substrate support includes a base; an electrostatic chuck disposed above the base; a first annular member to surround a substrate on the substrate support; a second annular member disposed below the first annular member and having a plurality of through holes; a plurality of lift pins disposed to correspond to the respective through holes, each lift pin having an upper portion to support the first annular member through the corresponding through hole and a lower portion; at least one spacer fixed to at least one of the lift pins, disposed on the lower portion so as to surround the upper portion and support the second annular member; and at least one actuator to vertically move the lift pins.

A focus ring placement table includes an annular ceramic heater on which a focus ring is placed, a metal base, an adhesive element bonding the metal base and the ceramic heater, an inner-peripheral-side protective element disposed between the metal base and the ceramic heater and bonded to an inner peripheral portion of the adhesive element, and an outer-peripheral-side protective element disposed between the metal base and the ceramic heater and bonded to an outer peripheral portion of the adhesive element. A coefficient of thermal expansion of the adhesive element is equal to or smaller than a coefficient of thermal expansion of the inner-peripheral-side protective element and is equal to or greater than a coefficient of thermal expansion of the outer-peripheral-side protective element.

Embodiments provided herein generally include apparatus, e.g., plasma processing systems and methods for the plasma processing of a substrate in a processing chamber. In some embodiments, aspects of the apparatus and methods are directed to improving process uniformity across the surface of the substrate, reducing defectivity on the surface of the substrate, or both. In some embodiments, the apparatus and methods provide for improved control over the uniformity of a plasma formed over the edge of a substrate and/or the distribution of ion energies at the surface of the substrate. The improved control over the plasma uniformity may be used in combination with substrate handling methods, e.g., de-chucking methods, to reduce particulate-related defectivity on the surface of the substrate. In some embodiments, the improved control over the plasma uniformity is used to preferentially clean accumulated processing byproducts from portions of the edge ring during an in-situ plasma chamber cleaning process.

A plasma processing apparatus includes a substrate chuck having a first surface for supporting a substrate, a second surface opposite to the first surface, and a sidewall, a focus ring for surrounding a perimeter of the substrate, and an edge block for supporting the focus ring. The edge block includes a side electrode on the sidewall of the substrate chuck and a bottom electrode on the second surface of the substrate chuck.

There is provision of a stage including a base; a substrate mount section provided above an upper surface of the base; an annular member mount section provided above the upper surface of the base, so as to surround a periphery of the substrate mount section; a first bonding layer bonding the base and the substrate mount section; a second bonding layer bonding the base and the annular member mount section; an annular member disposed on the annular member mount section; and a sealing member configured to protect the first bonding layer and the second bonding layer.