An elastic member that includes a plurality of pressure chambers is manufactured without using a mold having a complicated shape. According to one embodiment, a laminated membrane used in a substrate holder of a substrate processing apparatus is provided. Such a laminated membrane includes a first sheet material and a second sheet material disposed on the first sheet material. A part of the first sheet material is secured to a part of the second sheet material.

An elastic member that includes a plurality of pressure chambers is manufactured without using a mold having a complicated shape. According to one embodiment, a laminated membrane used in a substrate holder of a substrate processing apparatus is provided. Such a laminated membrane includes a first sheet material and a second sheet material disposed on the first sheet material. A part of the first sheet material is secured to a part of the second sheet material.

Some implementations of a retaining ring has an inner surface having a first portion formed of multiple planar facets and a second portion that adjoins the first portion along a boundary and includes a frustoconical surface that is sloped downwardly from outside in. Some implementations of the retaining ring have a crenellated or serpentine inner surface, and/or an inner surface with alternating region of different surface properties or different tilt angles.

Some implementations of a retaining ring has an inner surface having a first portion formed of multiple planar facets and a second portion that adjoins the first portion along a boundary and includes a frustoconical surface that is sloped downwardly from outside in. Some implementations of the retaining ring have a crenellated or serpentine inner surface, and/or an inner surface with alternating region of different surface properties or different tilt angles.

An apparatus comprises a flexible membrane for use with a carrier head of a substrate chemical mechanical polishing apparatus. The membrane comprises an outer surface providing a substrate receiving surface, wherein the outer surface has a central portion and an edge portion surrounding the central portion, wherein the central portion has a first surface roughness and the edge portion has a second surface roughness, the first surface roughness being greater than the second surface roughness.

Exemplary carrier heads for a chemical mechanical polishing apparatus may include a carrier body. The carrier heads may include a substrate mounting surface coupled with the carrier body. The carrier heads may include an inner ring that is sized and shaped to circumferentially surround a peripheral edge of a substrate positioned against the substrate mounting surface. The inner ring may be characterized by a first end having a first surface that faces the carrier body and a second end having a second surface opposite the first surface. The second end of the inner ring may be radially displaceable. The carrier heads may include an outer ring having an inner surface that is disposed against an outer surface of the inner ring.

Exemplary carrier heads for a chemical mechanical polishing apparatus may include a carrier body. The carrier heads may include a substrate mounting surface coupled with the carrier body. The carrier heads may include an inner ring that is sized and shaped to circumferentially surround a peripheral edge of a substrate positioned against the substrate mounting surface. The inner ring may be characterized by a first end having a first surface that faces the carrier body and a second end having a second surface opposite the first surface. The second end of the inner ring may be radially displaceable. The carrier heads may include an outer ring having an inner surface that is disposed against an outer surface of the inner ring.

Exemplary carrier heads for a chemical mechanical polishing apparatus may include a carrier body. The carrier heads may include a substrate mounting surface coupled with the carrier body. The carrier heads may include an inner ring that is sized and shaped to circumferentially surround a peripheral edge of a substrate positioned against the substrate mounting surface. The inner ring may be characterized by a first surface that faces the carrier body and a second surface opposite the first surface. The carrier heads may include at least one downforce control actuator disposed above the first surface of the inner ring at a discrete position about a circumference of the inner ring.

Exemplary carrier heads for a chemical mechanical polishing apparatus may include a carrier body. The carrier heads may include a substrate mounting surface coupled with the carrier body. The carrier heads may include an inner ring that is sized and shaped to circumferentially surround a peripheral edge of a substrate positioned against the substrate mounting surface. The inner ring may be characterized by a first surface that faces the carrier body and a second surface opposite the first surface. The carrier heads may include at least one downforce control actuator disposed above the first surface of the inner ring at a discrete position about a circumference of the inner ring.

A method and apparatus for dispensing polishing fluids and onto a polishing pad within a chemical mechanical polishing (CMP) system are disclosed herein. In particular, embodiments herein relate to a CMP system with a first fluid delivery arm and a second fluid delivery arm disposed over the polishing pad to dispense liquid, such as a polishing fluid or water. The first fluid delivery arm is disposed over at least 50% of the radius of the polishing pad, while the second fluid delivery arm is disposed over less than 50% of the radius of the polishing pad. The second fluid delivery arm is configured to dispense either a polishing fluid or a water onto the polishing pad to effect the polishing rate at the edge of the substrate.