Abstract: The present invention generally provides a system and apparatus for cleaning a polishing pad, such as a fixed abrasive pad, in a substrate processing system. In one embodiment, the system includes one or more nozzles which spray a fluid at pressures of about 30 psi to about 300 psi or greater, as measured at the nozzle, onto a polishing pad at acute angles to the surface of the polishing pad. The nozzles can spray downward and outward toward the perimeter of the pad to facilitate the debris removal therefrom. The system can include a pressure source to produce a sufficient fluid pressure substantially higher than the typical fluid pressure available from a facility installation.

Abstract: Generally, a method and apparatus for cleaning a backside of a web of polishing material. In one embodiment, the apparatus includes a platen having a support surface adapted to support the backside the web and a web cleaner disposed on the platen and adjacent the backside of the web. A method for cleaning a web of polishing material is also provided. In one embodiment, the method includes the steps of supporting a portion of the web of polishing media on a platen, advancing a portion of the web onto the platen, and cleaning the unrolled portion of the web.

Abstract: Deposited Cu is initially removed by CMP with fixed abrasive polishing pads stopping on the barrier layer, e.g., Ta or TaN. Buffing is then conducted selectively with respect to Cu: Ta or TaN and Cu: silicon oxide to remove the barrier layer and control dishing to no greater than 100 Å.

Abstract: A scrubber device is provided. The scrubber device may etch a backside of a wafer and may clean a frontside of the wafer simultaneously. The scrubber device may comprise a programmed controller adapted to supply a non-etching fluid to a frontside of the wafer whenever an etching fluid is supplied to the backside of the wafer.

Abstract: A polishing pad for a chemical mechanical polishing apparatus. The polishing pad includes a plurality of concentric circular grooves. The polishing pad may include multiple regions with grooves of different widths and spacings.

Abstract: A modular semiconductor substrate cleaning system is provided that processes vertically oriented semiconductor substrates. The system features a plurality of cleaning modules that may include a megasonic tank-type cleaner followed by a scrubber. An input module may receive a horizontally oriented substrate and rotate the substrate to a vertical orientation, and an output module may receive a vertically oriented substrate and rotate the substrate to a horizontal orientation. Each of the modules (input, cleaning and output) has a substrate support and may be positioned such that the substrate supports of adjacent modules are equally spaced. The modules are coupled by an overhead transfer mechanism having a plurality of substrate handlers spaced the same distance (X) as the substrate supports of the modules therebelow.

Abstract: Ion exchange materials are employed in CMP methodologies to polish or thin a semiconductor substrate or a layer thereon. Embodiments include a polishing pad having an ion exchange material thereon and polishing a semiconductor substrate or a layer thereon with the polishing pad or a CMP composition including an ion exchange material therein and polishing the substrate or a layer thereon with the CMP composition or both.

Abstract: An optical monitoring system for a two-step polishing process which generates a reflectance trace for each of plurality of radial zones. The CMP apparatus may switch from a high-selectivity slurry to a low-selectivity slurry when any of the reflectance traces indicate initial clearance of the metal layer, and polishing may halt when all of the reflectance traces indicate that oxide layer has been completely exposed.

Abstract: A fluid delivery apparatus and method for use in a chemical mechanical polishing system is provided. The delivery rate of a fluid onto a pad is controlled to reduce the consumption of the fluid. In general, the fluid flow may be varied between a relatively lower flow rate and a relatively higher flow rate or, alternatively, the flow may be periodically terminated. Fluid flow may be controlled by any combination of pumps, controllers, valves, or other regulator/fluid flow control member.

Abstract: Method and apparatus for improving the reproducibility of chucking forces of an electrostatic chuck used in plasma enhanced CVD processing of substrates provides for precoating of the electrostatic chuck with a dielectric layer, such as SiO2, after every chamber cleaning process. The uniform and tightly bonded dielectric layer deposited on the electrostatic chuck eliminates the need for a cover wafer over the chuck surface during the chamber cleaning and provides for more reliable gripping of wafers.

Abstract: A polishing article for chemical mechanical polishing. The polishing article includes a generally elongated polishing sheet with a polishing surface. The polishing article is formed from a material that is substantially opaque, and has a discrete region extending substantially the length of the polishing sheet that is at least semi-transparent.

Abstract: A method of chemical mechanical polishing a metal layer on a substrate in which the substrate is polished at a first polishing rate. Polishing is monitored with an eddy current monitoring system, and the polishing rate is reduced to a second polishing rate when the eddy current monitoring system indicates that a predetermined thickness of the metal layer remains on the substrate. Then polishing is monitored with an optical monitoring system, and polishing is halted when the optical monitoring system indicates that an underlying layer is at least partially exposed.

Abstract: Methods and apparatus for planarizing a substrate surface having copper containing materials thereon is provided. In one aspect, the invention provides a system for processing substrates comprising a first platen adapted for polishing a substrate with a hard polishing pad disposed on the first platen, a second platen adapted for polishing a substrate with a hard polishing pad disposed on the second platen, and a third platen adapted for polishing a substrate with a hard polishing pad disposed on the third platen. In another aspect, the invention provides a method for planarizing a substrate surface by the system described above including substantially removing bulk copper containing materials on the first platen, removing residual copper containing materials on the second platen, and then removing a barrier layer on the third platen. A computer readable program may also be provided for performing the methods described herein.

Abstract: A method of chemical mechanical polishing a metal layer on a substrate in which the substrate is polished at a first polishing rate. Polishing is monitored with an eddy current monitoring system, and the polishing rate is reduced to a second polishing rate when the eddy current monitoring system indicates that a predetermined thickness of the metal layer remains on the substrate. Then polishing is monitored with an optical monitoring system, and polishing is halted when the optical monitoring system indicates that an underlying layer is at least partially exposed.

Abstract: A chemical mechanical polishing system is provided having one more polishing stations. The polishing stations include a platen and pad mounted to an upper surface of the platen. The upper surface of the platen is patterned to define a raised area and a recessed area. The raised area provides a rigid mounting surface for the pad and the recessed area provides the pad a desired degree of flexibility and compliance of the pad when brought into contact with a substrate.

Abstract: An improved deposition chamber (2) includes a housing (4) defining a chamber (18) which houses a substrate support (14). A mixture of oxygen and SiF4 is delivered through a set of first nozzles (34) and silane is delivered through a set of second nozzles (34a) into the chamber around the periphery (40) of the substrate support. Silane (or a mixture of silane and SiF4) and oxygen are separately injected into the chamber generally centrally above the substrate from orifices (64, 76). The uniform dispersal of the gases coupled with the use of optimal flow rates for each gas results in uniformly low (under 3.4) dielectric constant across the film.

Abstract: A substrate polishing scheme (apparatus and method) is described according to which a polishing surface of a polishing sheet is driven in a generally linear direction by a drive mechanism, a surface of a substrate is held against the polishing surface of the polishing sheet by a polishing head, and the substrate is probed through the polishing sheet by a monitoring system.

Abstract: A modular semiconductor substrate cleaning system is provided that processes vertically oriented semiconductor substrates. The system features a plurality of cleaning modules that may include a megasonic tank-type cleaner followed by a scrubber. An input module may receive a horizontally oriented substrate and rotate the substrate to a vertical orientation, and an output module may receive a vertically oriented substrate and rotate the substrate to a horizontal orientation. Each of the modules (input, cleaning and output) has a substrate support and may be positioned such that the substrate supports of adjacent modules are equally spaced. The modules are coupled by an overhead transfer mechanism having a plurality of substrate handlers spaced the same distance (X) as the substrate supports of the modules therebelow.

Abstract: An optical monitoring system for a two-step polishing process which generates a reflectance trace for each of plurality of radial zones. The CMP apparatus may switch from a high-selectivity slurry to a low-selectivity slurry when any of the reflectance traces indicate initial clearance of the metal layer, and polishing may halt when all of the reflectance traces indicate that oxide layer has been completely exposed.

Abstract: A polishing method is provided which simultaneously supplies both a polishing fluid and a conditioning fluid to a polishing pad, while a substrate is in moving contact with the polishing pad.