An eddy current sensor assembly includes an eddy current sensor and an output signal processing circuit that processes an output signal from the eddy current sensor. The output signal processing circuit includes a mixer circuit that accepts the output signal and a signal of the predetermined frequency as input, multiplies the two signals received as input, and outputs an output signal obtained by the multiplication, and a low-pass filter that accepts the output signal output by the mixer circuit as input, cuts a high-frequency signal included in the output signal received as input, and outputs at least a direct-current (DC) signal.

Provided is a polishing apparatus and polishing method which can preferably adjust a temperature of a surface of a polishing pad. A polishing apparatus includes: a polishing table configured to be rotatable, and to support the polishing pad; a substrate configured to hold an object to be polished, and to press the object to be polished against the polishing pad; a polishing liquid supplying portion configured to supply a polishing liquid to a polishing surface; a polishing liquid removing portion configured to remove the polishing liquid from the polishing surface; and a temperature adjuster configured to adjust a temperature of the polishing surface. In a rotating direction of the polishing table, the polishing liquid supplying portion, a polishing region where the object to be polished is pressed against the polishing surface by the substrate, the polishing liquid removing portion, and the temperature adjuster are disposed in this order.

In one embodiment, a semiconductor manufacturing apparatus includes a polishing table configured to hold a polishing pad, a polishing head configured to hold a substrate to be polished by the polishing pad, and a polishing liquid feeder configured to feed a polishing liquid to the polishing pad. The apparatus further includes a heat exchanger configured to be placed on the polishing pad and control temperatures of the polishing pad and the polishing liquid, and one or more protruding portions provided on a side face or a bottom face of the heat exchanger.

A method includes placing a polisher head on platen, the polisher head including a set of first magnets, and controlling a set of second magnets to rotate the polisher head on the platen, wherein controlling the set of second magnets includes reversing the polarity of at least one second magnet of the set of second magnets to produce a magnetic force on at least one first magnet of the set of first magnets, wherein the set of second magnets are external to the polisher head.

A method includes placing a polisher head on platen, the polisher head including a set of first magnets, and controlling a set of second magnets to rotate the polisher head on the platen, wherein controlling the set of second magnets includes reversing the polarity of at least one second magnet of the set of second magnets to produce a magnetic force on at least one first magnet of the set of first magnets, wherein the set of second magnets are external to the polisher head.

In an embodiment, a method includes: performing a self-limiting process to modify a top surface of a wafer; after the self-limiting process completes, removing the modified top surface from the wafer; and repeating the performing the self-limiting process and the removing the modified top surface from the wafer until a thickness of the wafer is decreased to a predetermined thickness.

A method includes placing a polisher head on platen, the polisher head including a set of first magnets, and controlling a set of second magnets to rotate the polisher head on the platen, wherein controlling the set of second magnets includes reversing the polarity of at least one second magnet of the set of second magnets to produce a magnetic force on at least one first magnet of the set of first magnets, wherein the set of second magnets are external to the polisher head.

A polishing apparatus includes a chuck table, a rotation mechanism that rotates the chuck table around a predetermined rotation axis, a polishing unit that has a spindle and in which a polishing pad for polishing the wafer sucked and held by the holding surface is mounted on a lower end part of the spindle, a slurry supply unit, and a cleaning unit that cleans the holding surface. The cleaning unit has a cleaning abrasive stone for removing the slurry that adheres to the holding surface through getting contact with the holding surface and a positioning unit that positions the cleaning abrasive stone to a cleaning position at which the cleaning abrasive stone gets contact with the holding surface and an evacuation position at which the cleaning abrasive stone is separate from the holding surface. Hardness of the cleaning abrasive stone is lower than the hardness of the holding surface.

A system controls a flow of a chemical mechanical polish (CMP) slurry into a chamber to form a slurry reservoir within the chamber. Once the slurry reservoir has been formed within the chamber, the system moves a polishing head to position and force a surface of a wafer that is attached to the polishing head into contact with a polishing pad attached to a platen within the chamber. A wafer/pad interface is formed at the surface of the wafer forced into contact with the polishing pad and the wafer/pad interface is disposed below an upper surface of the slurry reservoir. During CMP processing, the system controls one or more of a level, a force, and a rotation of the platen, a position, a force and a rotation of the polishing head to conduct the CMP processing of the surface of the wafer at the wafer/pad interface.

An apparatus for CMP includes a platen, a wafer carrier retaining a semiconductor wafer during a polishing operation, a dresser configured to recondition a polishing pad disposed on the platen during the polishing operation, and a vibration-monitoring system configured to detect vibrations during the polishing operation. The vibration-monitoring system includes a first vibration sensor configured to generate a plurality of first vibration signals. An end point is triggered to the polishing when a change between the plurality of vibration signals reaches a value.