In an embodiment, a system includes: a pad comprising a first side and a second side opposite the first side, wherein the first side is configured to receive a wafer during chemical mechanical planarization (CMP), and a platen adjacent the pad along the second side, wherein the platen comprises a suction opening that interfaces with the second side; a pump configured to produce suction at the suction opening to adhere the second side to the platen; and a sensor configured to collect sensor data characterizing a uniformity of adherence between the pad and the platen, wherein the pump is configured to produce the suction at the suction opening based on the sensor data.

A substrate processing apparatus includes: a holding portion configured to hold a substrate including a bevel and an end surface in a peripheral edge portion of the substrate; a rotator configured to rotate the holding portion; a polishing head configured to be brought into contact with the peripheral edge portion of the substrate held by the holding portion and to polish the peripheral edge portion of the substrate; and a holder to which the polishing head is installed.

A substrate processing apparatus includes: a holding portion configured to hold a substrate including a bevel and an end surface in a peripheral edge portion of the substrate; a rotator configured to rotate the holding portion; a polishing head configured to be brought into contact with the peripheral edge portion of the substrate held by the holding portion and to polish the peripheral edge portion of the substrate; and a holder to which the polishing head is installed.

A substrate processing apparatus includes: a holding portion configured to hold a substrate including a bevel and an end surface in a peripheral edge portion of the substrate; a rotator configured to rotate the holding portion; a polishing head configured to be brought into contact with the peripheral edge portion of the substrate held by the holding portion and to polish the peripheral edge portion of the substrate; and a holder to which the polishing head is installed.

A substrate processing apparatus includes: a holding portion configured to hold a substrate including a bevel and an end surface in a peripheral edge portion of the substrate; a rotator configured to rotate the holding portion; a polishing head configured to be brought into contact with the peripheral edge portion of the substrate held by the holding portion and to polish the peripheral edge portion of the substrate; and a holder to which the polishing head is installed.

A chemical mechanical planarization apparatus includes a multi-zone platen comprising a plurality of individually controlled concentric toroids. The rotation direction, rotation speed, applied force, relative height, and temperature of each concentric toroid is individually controlled. Concentric polishing pads are affixed to an upper surface of each of the individually controlled concentric toroids. The chemical mechanical planarization apparatus includes a single central slurry source or includes individual slurry sources for each individually controlled concentric toroid.

A chemical mechanical planarization apparatus includes a multi-zone platen comprising a plurality of individually controlled concentric toroids. The rotation direction, rotation speed, applied force, relative height, and temperature of each concentric toroid is individually controlled. Concentric polishing pads are affixed to an upper surface of each of the individually controlled concentric toroids. The chemical mechanical planarization apparatus includes a single central slurry source or includes individual slurry sources for each individually controlled concentric toroid.

Embodiments herein generally relate to chemical mechanical polishing (CMP) systems and methods for reducing non-uniform material removal rate at or near the peripheral edge of a substrate when compared to radially inward regions therefrom. In one embodiment, a polishing system includes a substrate carrier comprising an annular retaining ring which is used to surround a to-be-processed substrate during a polishing process and a polishing platen. The polishing platen includes cylindrical metal body having a pad-mounting surface. The pad-mounting surface comprises a plurality of polishing zones which include a first zone having a circular or annular shape, a second zone circumscribing the first zone, and a third zone circumscribing the second zone. A surface of the second zone is recessed from surfaces of the first and third zones adjacent thereto, and a width of the second zone is less than an outer diameter of the annular retaining ring.

Embodiments herein generally relate to chemical mechanical polishing (CMP) systems and methods for reducing non-uniform material removal rate at or near the peripheral edge of a substrate when compared to radially inward regions therefrom. In one embodiment, a polishing system includes a substrate carrier comprising an annular retaining ring which is used to surround a to-be-processed substrate during a polishing process and a polishing platen. The polishing platen includes cylindrical metal body having a pad-mounting surface. The pad-mounting surface comprises a plurality of polishing zones which include a first zone having a circular or annular shape, a second zone circumscribing the first zone, and a third zone circumscribing the second zone. A surface of the second zone is recessed from surfaces of the first and third zones adjacent thereto, and a width of the second zone is less than an outer diameter of the annular retaining ring.

A chemical mechanical planarization apparatus includes a multi-zone platen comprising a plurality of individually controlled concentric toroids. The rotation direction, rotation speed, applied force, relative height, and temperature of each concentric toroid is individually controlled. Concentric polishing pads are affixed to an upper surface of each of the individually controlled concentric toroids. The chemical mechanical planarization apparatus includes a single central slurry source or includes individual slurry sources for each individually controlled concentric toroid.