Embodiments of process kits are provided herein. In some embodiments, a process kit, includes: a deposition ring configured to be disposed on a substrate support, the deposition ring comprising: an annular band having an upper surface and a lower surface, the lower surface including a step between a radially inner portion and a radially outer portion, the step extending downward from the radially inner portion to the radially outer portion; an inner lip extending upwards from the upper surface of the annular band and adjacent an inner surface of the annular band, and wherein an outer surface of the inner lip extends radially outward and downward from an upper surface of the inner lip to the upper surface of the annular band; a channel disposed radially outward of the annular band; and an outer lip extending upwardly and disposed radially outward of the channel.

A method of attracting an object to a mounting table is provided. The object is a substrate, an edge ring, or a combination of the substrate and the edge ring. The mounting table is provided with an electrostatic chuck including electrodes. After the object is placed on the electrostatic chuck, n-phase alternating current (AC) voltages (n≥2) are applied to the electrodes. Each phase voltage of the n-phase AC voltages has a phase different from each other, and the phase voltage of the n-phase AC voltages is applied based on a self-bias voltage of the object.

Carrier rings with radially-varied plasma impedance are provided herein. In some embodiments, a carrier ring may include an outer ring that holds a removable inner ring. The outer ring may be formed of a dielectric material such as ceramic. The inner ring may be formed of a metal such as aluminum to provide a desired impedance. In some other embodiments, a carrier ring is formed from a single piece with radially-varying impedances.

Embodiments of the present disclosure generally relate to substrate supports for process chambers and RF grounding configurations for use therewith. Methods of grounding RF current are also described. A chamber body at least partially defines a process volume therein. A first electrode is disposed in the process volume. A pedestal is disposed opposite the first electrode. A second electrode is disposed in the pedestal. An RF filter is coupled to the second electrode through a conductive rod. The RF filter includes a first capacitor coupled to the conductive rod and to ground. The RF filter also includes a first inductor coupled to a feedthrough box. The feedthrough box includes a second capacitor and a second inductor coupled in series. A direct current (DC) power supply for the second electrode is coupled between the second capacitor and the second inductor.

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.

Methods of cleaning a substrate support comprise: introducing a cleaning gas into a processing chamber containing the substrate support; applying a radio frequency (RF) power to a remote plasma source that is in fluid communication with the processing chamber to establish a reactive etching plasma from the cleaning gas in the processing chamber; reacting deposits on the substrate support with the reactive etching plasma to form a by-products phase; and evacuating the by-products phase from the processing chamber.

A wafer support device includes a dielectric substrate and an RF electrode provided in the dielectric substrate. The RF electrode is divided into a plurality of zone electrodes arranged in a planar direction of the dielectric substrate. The wafer support device has: a short-circuit member interconnecting the plurality of zone electrodes; and a main power supply rod connected to the short-circuit member from a back side of the dielectric substrate.

A wafer placement table includes a ceramic base, an electrode (FR attraction electrode), a bonding terminal (power supply terminal), and an electrode lead-out portion. The ceramic base has an upper surface serving as a wafer placement surface. The FR attraction electrode is embedded in the ceramic base. The power supply terminal is inserted into the ceramic base from a lower surface of the ceramic base and penetrates a through-hole formed in the FR attraction electrode. The electrode lead-out portion is provided at each of two or more positions at intervals along a peripheral edge of the through-hole to be thicker than the FR attraction electrode and has an inner peripheral surface bonded to a side surface of the power supply terminal.

A member for semiconductor manufacturing apparatus includes a ceramic plate that has an upper surface including a wafer placement surface and resin porous plugs that have upper surfaces that are exposed from the wafer placement surface. The resin porous plugs are press-fitted and secured in plug insertion holes that extend through the ceramic plate in an up-down direction and allow gas to flow.

Exemplary semiconductor substrate supports may include a pedestal shaft. The semiconductor substrate supports may include a platen. The platen may define a fluid channel across a first surface of the platen. The semiconductor substrate supports may include a platen insulator positioned between the platen and the pedestal shaft. The semiconductor substrate supports may include a conductive puck coupled with the first surface of the platen and configured to contact a substrate supported on the semiconductor substrate support. The semiconductor substrate supports may include a conductive shield extending along a backside of the platen insulator and coupled between a portion of the platen insulator and the pedestal shaft.