A tunable upper plasma exclusion zone (PEZ) ring adjusts a distance of plasma during processing in a processing chamber and includes: a lower surface that includes: a horizontal portion; and an upwardly tapered outer portion that is conical and that extends outwardly and upwardly from the horizontal portion at an upward taper angle of about 5° to 50° with respect to the horizontal portion, where an outer diameter of the upwardly tapered outer portion is greater than 300 millimeters (mm), and where an inner diameter where the upwardly tapered outer portion begins to extend upwardly is less than 300 mm. A controller is to, during processing of a 300 mm circular substrate, adjust the distance of plasma for treatment of the 300 mm circular substrate at least one of radially inward and radially outward using the tunable upper PEZ ring.

A tunable upper plasma exclusion zone (PEZ) ring adjusts a distance of plasma during processing in a processing chamber and includes: a lower surface that includes: a horizontal portion; and an upwardly tapered outer portion that is conical and that extends outwardly and upwardly from the horizontal portion at an upward taper angle of about 5° to 50° with respect to the horizontal portion, where an outer diameter of the upwardly tapered outer portion is greater than 300 millimeters (mm), and where an inner diameter where the upwardly tapered outer portion begins to extend upwardly is less than 300 mm. A controller is to, during processing of a 300 mm circular substrate, adjust the distance of plasma for treatment of the 300 mm circular substrate at least one of radially inward and radially outward using the tunable upper PEZ ring.

An ion generator includes an arc chamber defining a plasma generation space, and a cathode which emits thermoelectrons toward the plasma generation space. The arc chamber includes a box-shaped main body having an opening, and a slit member mounted to cover the opening and provided with a front slit. An inner surface of the main body is exposed to the plasma generation space made of a refractory metal material. The slit member includes an inner member made of graphite and an outer member made of another refractory metal material. The outer member includes an outer surface exposed to an outside of the arc chamber. The inner member includes an inner surface exposed to the plasma generation space, and an opening portion which forms the front slit extending from the inner surface of the inner member to the outer surface of the outer member.

A bevel etcher for cleaning a bevel edge of a semiconductor substrate with plasma includes a lower electrode assembly having a lower support having a cylindrical top portion. An upper dielectric component is disposed above the lower electrode assembly having a cylindrical bottom portion opposing the top portion of the lower support. A tunable upper plasma exclusion zone (PEZ) ring surrounds the bottom portion of the dielectric component, wherein a lower surface of the tunable upper PEZ ring includes an upwardly tapered outer portion extending outwardly from the bottom portion of the upper dielectric component, wherein a vertical height of an adjustable gap between the lower surface of the upper PEZ ring and an upper surface of a substrate supported on the lower support can be increased or decreased such that the extent of the bevel edge of the substrate to be cleaned by the plasma can respectively be adjusted radially inward or radially outward. At least one radio frequency (RF) power source is adapted to energize process gas into the plasma during a bevel edge cleaning process.

The present disclosure generally relates to apparatuses and methods for controlling a plasma sheath near a substrate edge. The apparatus relates to a processing chamber and/or a substrate support that includes an edge ring assembly with an edge ring electrode and an electrostatic chuck with a chucking electrode. The edge ring assembly is positioned adjacent the electrostatic chuck, such as with the edge ring assembly positioned exterior to or about the electrostatic chuck. The edge ring assembly includes a base and a cap positioned above the base with the edge ring electrode positioned between the cap and the base. The base of the edge ring electrode may include an inner recess and/or an outer recess with the cap including one or more lips that extend into the inner recess and/or the outer recess. One or more silicon rings and/or insulating rings are positioned adjacent the edge ring assembly.

A substrate side-deposition apparatus includes a substrate mounting drum rotatable within a chamber and allowing at least one substrate to be inserted and mounted in a direction from a circumferential surface toward a center; and at least one source target configured to deposit wiring based on sputtering to a lateral side portion of the substrate exposed protruding from the circumferential surface of the substrate mounting drum.

A substrate treating apparatus includes a chamber having a process space therein, a substrate support unit that supports a substrate in the process space, a gas supply unit that supplies gas into the process space, and a plasma generation unit that generates plasma from the gas, wherein the substrate support unit includes a substrate support part that supports the substrate, a focus ring that surrounds the substrate support part, an insulator located below the focus ring and having a groove formed therein, an electrode provided in the groove formed in the insulator, and an impedance controller that is connected with the electrode and that adjusts impedance of the electrode, and the impedance controller includes a resonance control circuit that adjusts a maximum value of current applied to the electrode and an impedance control circuit that controls an incidence angle of plasma ions in an edge region of the substrate.

Embodiments of the present disclosure generally relate to apparatuses for reducing particle contamination on substrates in a plasma processing chamber. In one or more embodiments, an edge ring is provided and includes a top surface, a bottom surface opposite the top surface and extending radially outward, an outer vertical wall extending between and connected to the top surface and the bottom surface, an inner vertical wall opposite the outer vertical wall, an inner lip extending radially inward from the inner vertical wall, and an inner step disposed between and connected to the inner wall and the bottom surface. During processing, the edge ring shifts the high plasma density zone away from the edge area of the substrate to avoid depositing particles on the substrate when the plasma is de-energized.

There is provided a focus ring that is capable of preventing deposits from adhering to a member having a lower temperature in a gap between two members having different temperatures. A focus ring 25 is disposed to surround a peripheral portion of a wafer W in a chamber 11 of a substrate processing apparatus 10. The focus ring 25 includes an inner focus ring 25a and an outer focus ring 25b. Here, the inner focus ring 25a is placed adjacent to the wafer W and configured to be cooled; and the outer focus ring 25b is placed so as to surround the inner focus ring 25a and configured not to be cooled. Further, a block member 25c is provided in a gap between the inner focus ring 25a and the outer focus ring 25b.

The present disclosure generally relates to apparatuses and methods for controlling a plasma sheath near a substrate edge. The apparatus relates to a processing chamber and/or a substrate support that includes an edge ring assembly with an edge ring electrode and an electrostatic chuck with a chucking electrode. The edge ring assembly is positioned adjacent the electrostatic chuck, such as with the edge ring assembly positioned exterior to or about the electrostatic chuck. The edge ring assembly includes a base and a cap positioned above the base with the edge ring electrode positioned between the cap and the base. The base of the edge ring electrode may include an inner recess and/or an outer recess with the cap including one or more lips that extend into the inner recess and/or the outer recess. One or more silicon rings and/or insulating rings are positioned adjacent the edge ring assembly.