A wafer polishing apparatus includes a base support; a polishing pad on the base support; a polishing head on an upper portion of the base support and configured to rotate; a polishing head support on the upper portion of the base support and connected to the polishing head, a retainer ring attached to a lower portion of the polishing head; an illumination device configured to provide light to at least a part of an inner surface of the retainer ring; and a camera device configured to capture an image of at least a part of the inner surface of the retainer ring while the polishing head rotates. The polishing head support may be configured to rotate on the base support such that the polishing head is on at least one of a treatment region or a maintenance region of the base support.

The present invention provides methods for making a pre-conditioned chemical mechanical (CMP) polishing pad having a pad surface microtexture effective for polishing comprising grinding the surface of the CMP polishing pad having a radius with a rotary grinder while it is held in place on a flat bed platen surface, the rotary grinder having a grinding surface disposed parallel to or substantially parallel to the surface of the flat bed platen and made of a porous abrasive material, wherein the resulting CMP polishing pad has a surface roughness of from 0.01 μm to 25 μm, Sq. The present invention also provides a CMP polishing pad having a series of visibly intersecting arcs on the polishing layer surface, the intersecting arcs having a radius of curvature equal to or greater than half of the radius of curvature of the pad and extending all the way around the surface of the pad in radial symmetry around the center point of the pad.

The present invention provides methods for making a pre-conditioned chemical mechanical (CMP) polishing pad having a pad surface microtexture effective for polishing comprising grinding the surface of the CMP polishing pad having a radius with a rotary grinder while it is held in place on a flat bed platen surface, the rotary grinder having a grinding surface disposed parallel to or substantially parallel to the surface of the flat bed platen and made of a porous abrasive material, wherein the resulting CMP polishing pad has a surface roughness of from 0.01 μm to 25 μm, Sq. The present invention also provides a CMP polishing pad having a series of visibly intersecting arcs on the polishing layer surface, the intersecting arcs having a radius of curvature equal to or greater than half of the radius of curvature of the pad and extending all the way around the surface of the pad in radial symmetry around the center point of the pad.

A polishing apparatus which is an index system polishing apparatus which includes a polishing head for holding a wafer, a plurality of turn tables to which polishing pads for polishing the wafer are attached, and a loading/unloading stage for loading the wafer to the polishing head or unloading the wafer from the polishing head, and which polishes the wafer while switching the turn tables to be used for polishing the wafer held at the polishing head by causing the polishing head to perform rotation movement, the polishing apparatus including a turn table upward and downward movement mechanism which allows the turn table to move upward and downward. With this polishing apparatus, it is possible to reduce an amount of displacement caused when moment load is applied on the polishing head during polishing.

A polishing apparatus which is an index system polishing apparatus which includes a polishing head for holding a wafer, a plurality of turn tables to which polishing pads for polishing the wafer are attached, and a loading/unloading stage for loading the wafer to the polishing head or unloading the wafer from the polishing head, and which polishes the wafer while switching the turn tables to be used for polishing the wafer held at the polishing head by causing the polishing head to perform rotation movement, the polishing apparatus including a turn table upward and downward movement mechanism which allows the turn table to move upward and downward. With this polishing apparatus, it is possible to reduce an amount of displacement caused when moment load is applied on the polishing head during polishing.

The present invention provides a polishing pad, a process for preparing the same, and a process for preparing a semiconductor device using the same. In the polishing pad, the surface zeta potential and its ratio of the polishing surface are controlled to specific ranges according to the type of polishing slurry, whereby it is possible to improve the characteristics of scratches and surface defects appearing on the surface of the semiconductor substrate and to further enhance the polishing rate.

The present invention provides a polishing pad, a process for preparing the same, and a process for preparing a semiconductor device using the same. In the polishing pad, the surface zeta potential and its ratio of the polishing surface are controlled to specific ranges according to the type of polishing slurry, whereby it is possible to improve the characteristics of scratches and surface defects appearing on the surface of the semiconductor substrate and to further enhance the polishing rate.

A cleaning apparatus for removing particles from a substrate is provided. The cleaning apparatus includes a first cleaning unit including a first dual nozzle supplying, to a substrate, a first chemical liquid and a first spray including a first liquid dissolving the first chemical liquid, and a second cleaning unit including a second dual nozzle supplying, to the substrate, a second chemical liquid different from the first chemical liquid and a second spray including a second liquid dissolving the second chemical liquid and being the same as the first liquid.

A cleaning apparatus for removing particles from a substrate is provided. The cleaning apparatus includes a first cleaning unit including a first dual nozzle supplying, to a substrate, a first chemical liquid and a first spray including a first liquid dissolving the first chemical liquid, and a second cleaning unit including a second dual nozzle supplying, to the substrate, a second chemical liquid different from the first chemical liquid and a second spray including a second liquid dissolving the second chemical liquid and being the same as the first liquid.

A chemical-mechanical polishing/planarization pad conditioner body made from diamond-reinforced reaction bonded silicon carbide, with diamond particles protruding or “standing proud” of the rest of the surface, and uniformly distributed on the cutting surface. In one embodiment, the diamond particles are approximately uniformly distributed throughout the composite, but in other embodiments they are preferentially located at and near the conditioning surface. The tops of the diamond particles can be engineered to be at a constant elevation (i.e., the conditioner body can be engineered to be very flat). Exemplary shapes of the body may be disc or toroidal. The diamond particles can be made to protrude from the conditioning surface by preferentially eroding the Si/SiC matrix. The eroding may be accomplished by electrical discharge machining or by lapping/polishing with abrasive.