Shortcomings associated with insufficient control of a conventional CMP-process are obviated by providing an CMP-apparatus configured to complement a constant force (to which a workpiece that is being polished is conventionally exposed) with a time-alternating force and/or means for measuring an electrical characteristic of the CMP-process. The time-alternating force is applied with the use of a system component that is electrically isolated from the workpiece and that is disposed in the carrier-chick in which the workpiece is affixed for CMP-process, while the electrical characteristic is measured with the use of a judiciously-configured reservoir in which the used fluid is collected. The use of such CMP-apparatus.

Shortcomings associated with insufficient control of a conventional CMP-process are obviated by providing an CMP-apparatus configured to complement a constant force (to which a workpiece that is being polished is conventionally exposed) with a time-alternating force and/or means for measuring an electrical characteristic of the CMP-process. The time-alternating force is applied with the use of a system component that is electrically isolated from the workpiece and that is disposed in the carrier-chick in which the workpiece is affixed for CMP-process, while the electrical characteristic is measured with the use of a judiciously-configured reservoir in which the used fluid is collected. The use of such CMP-apparatus.

Exemplary substrate electrochemical planarization apparatuses may include a chuck body defining a substrate support surface. The apparatuses may include a retaining wall extending from the chuck body. The apparatuses may include an electrolyte delivery port disposed radially inward of the retaining wall. The apparatuses may include a spindle that is positionable over the chuck body. The apparatuses may include an end effector coupled with a lower end of the spindle. The end effector may be conductive. The apparatuses may include an electric contact extending from the chuck body or retaining wall. The apparatuses may include a current source. The current source may be configured to provide an electric current to an electrolyte within an open interior defined by the retaining wall.

A polishing platform of a polishing apparatus includes a platen, a polishing pad, and an electric field element disposed between the platen and the polishing pad. The polishing apparatus further includes a controller configured to apply voltages to the electric field element. A first voltage is applied to the electric field element to attract charged particles of a polishing slurry toward the polishing pad. The attracted particles reduce overall topographic variation of a polishing surface presented to a workpiece for polishing. A second voltage is applied to the electric field element to attract additional charged particles of the polishing slurry toward the polishing pad. The additional attracted particles further reduce overall topographic variation of the polishing surface presented to the workpiece. A third voltage is applied to the electric field element to repel charged particles of the polishing slurry away from the polishing pad for improved cleaning thereof.

Shortcomings associated with insufficient control of a conventional CMP-process are obviated by providing an CMP-apparatus configured to complement a constant force (to which a workpiece that is being polished is conventionally exposed) with a time-alternating force and/or means for measuring an electrical characteristic of the CMP-process. The time-alternating force is applied with the use of a system component that is electrically isolated from the workpiece and that is disposed in the carrier-chick in which the workpiece is affixed for CMP-process, while the electrical characteristic is measured with the use of a judiciously-configured reservoir in which the used fluid is collected. The use of such CMP-apparatus.

The present disclosure includes methods and systems for lapping a row bar of sliders. According to the present disclosure, an electrical interconnect configuration is provided that permits the net current provided to a row bar to heat electrical heating devices during lapping to be managed so as help prevent exceeding breakdown currents of related electrical channels.

A polishing platform of a polishing apparatus includes a platen, a polishing pad, and an electric field element disposed between the platen and the polishing pad. The polishing apparatus further includes a controller configured to apply voltages to the electric field element. A first voltage is applied to the electric field element to attract charged particles of a polishing slurry toward the polishing pad. The attracted particles reduce overall topographic variation of a polishing surface presented to a workpiece for polishing. A second voltage is applied to the electric field element to attract additional charged particles of the polishing slurry toward the polishing pad. The additional attracted particles further reduce overall topographic variation of the polishing surface presented to the workpiece. A third voltage is applied to the electric field element to repel charged particles of the polishing slurry away from the polishing pad for improved cleaning thereof.

The present disclosure relates to a chemical mechanical polishing (CMP) pad, and an associated method to perform a CMP process. In some embodiments, the CMP pad comprises a polishing layer having a front surface with protruding asperities while a back surface being planar. A film electrode is attached to the back surface of the polishing layer and is isolated from the front surface of the polishing layer. The CMP pad further comprises an insulating layer covering sidewall and bottom surfaces of the film electrode.

A planarization apparatus is provided. The planarization apparatus includes a platen, and a grinding wheel. The platen is configured to support a wafer. The grinding wheel is over the platen and configured to grind the wafer. The grinding wheel includes a base ring, and a plurality of grinding teeth mounted on the base ring. The plurality of grinding teeth includes a plurality of grinding abrasives, and the plurality of grinding abrasives is ball type.

An end point detection method is provided for detecting and end point based on a drive current supplied to a drive unit that rotates and drives one of a polishing table and a holding unit. The end point detection method includes: a step (S102) of determining whether a polishing condition of a polishing process to be executed coincides with a preset specific polishing condition; a step (S103) of adjusting a current control parameter in a drive control unit that controls the drive current, the current control parameter related to a change in the drive current with respect to a change in a driving load of the drive unit, if it is determined that the polishing condition coincides with the specific polishing condition; and a step (S105) of detecting the drive current supplied to the drive unit based on the adjusted current control parameter.