A polishing apparatus includes a polishing unit that rotatably supports a polishing pad for polishing a wafer held on a holding surface of a chuck table and that has a spindle formed with a through-hole extending from one end of the spindle to the other end of the spindle in an axis of the spindle. A thickness measuring unit is disposed at one end of the through-hole of the spindle that measures a thickness of the wafer. A controller obtains information regarding the thickness of the wafer measured by the thickness measuring unit at a position defined by a variation in a distance between a rotational center of the rotating wafer fed by a parallel feeding mechanism, a center of the other end of the through-hole facing the wafer, and a rotational angle of the chuck table, and forms mapping data regarding the thickness of the wafer.

A CMP system includes a polishing apparatus configured to polish a wafer and roll cleaning apparatus, which includes a rotating roll brush configured to roll against a surface of the wafer during operation, a fluid supply system configured to apply a fluid on the surface of the wafer, and an array of liquid sensors configured to detect a distribution of the fluid on the surface of the wafer in areas that are not covered by the rotating roll brush.

A CMP system includes a polishing apparatus configured to polish a wafer and roll cleaning apparatus, which includes a rotating roll brush configured to roll against a surface of the wafer during operation, a fluid supply system configured to apply a fluid on the surface of the wafer, and an array of liquid sensors configured to detect a distribution of the fluid on the surface of the wafer in areas that are not covered by the rotating roll brush.

A method of fabricating a polishing pad using an additive manufacturing system includes depositing a first set successive layers by droplet ejection to form a. Depositing the successive layers includes dispensing a polishing pad precursor to first regions corresponding to partitions of the polishing pad and dispensing a sacrificial material to second regions corresponding to grooves of the polishing pad. Removing the sacrificial material provides the polishing pad with a polishing surface that has the partitions separated by the grooves.

A polishing pad conditioning apparatus includes a base, a fiber, and a polymer protruding from a surface of the base and encompassing the fiber.

A polishing pad conditioning apparatus includes a base, a fiber, and a polymer protruding from a surface of the base and encompassing the fiber.

A chemical mechanical polishing (CMP) composition (Q) for chemical mechanical polishing of a substrate (S) containing (i) cobalt and/or (ii) a cobalt alloy, wherein the CMP composition (Q) contains: (A) Inorganic particles, (B) a substituted aromatic compound with at least one carboxylic acid function as corrosion inhibitor, (C) at least one amino acid, (D) at least one oxidizer, (E) an aqueous medium, wherein the CMP composition (Q) has a pH of from 7 to 10.

A chemical mechanical polishing (CMP) composition (Q) for chemical mechanical polishing of a substrate (S) containing (i) cobalt and/or (ii) a cobalt alloy, wherein the CMP composition (Q) contains: (A) Inorganic particles, (B) a substituted aromatic compound with at least one carboxylic acid function as corrosion inhibitor, (C) at least one amino acid, (D) at least one oxidizer, (E) an aqueous medium, wherein the CMP composition (Q) has a pH of from 7 to 10.

A chemical mechanical polishing (CMP) system that includes a platen, a conduit having a heating segment and a delivery outlet, and a heater coupled to the heating segment of the conduit. The delivery outlet is positioned adjacent to the platen, whereas the heating segment defines a dispensing distance with the delivery outlet. The dispensing distance is associated with a stability of a CMP slurry at an elevated temperature that is above an ambient temperature.

A chemical mechanical polishing (CMP) system that includes a platen, a conduit having a heating segment and a delivery outlet, and a heater coupled to the heating segment of the conduit. The delivery outlet is positioned adjacent to the platen, whereas the heating segment defines a dispensing distance with the delivery outlet. The dispensing distance is associated with a stability of a CMP slurry at an elevated temperature that is above an ambient temperature.