Abstract: Provided is a polishing apparatus and polishing pad, intended for polishing a substrate, and designed for improved flow and distribution of a polishing composition to the area of interaction between the pad and substrate. In one aspect, a polishing pad is provided having first and second pluralities of unidirectional pores configured to communicate polishing composition between the top and bottom surfaces of the pad. A cyclic flow of composition is established to continuously renew composition to the area of interaction between the pad and the substrate. In another aspect, a polishing apparatus is provided having a polishing composition transfer region between a polishing pad and a platen. Pores disposed through the pad communicate composition from the transfer region to the top surface. To facilitate directing the composition into the pores, the apparatus includes a plurality of protrusions protruding into the transfer region that are aligned with the pores.

Abstract: A multimode optical waveguide having reduced modal dispersion. The optical waveguide comprises a core, a cladding surrounding the core, and a plurality of optical scattering elements dispersed in the core.

Abstract: Methods for controllably polishing fiber optic connectors that include a ferrule enclosing single or multiple optical fibers by manipulating the ingredients of the polishing composition to control the relative polishing rates of the ferrule material and the optical fiber material to obtain the desired connector end face surface finish and geometry.

Abstract: This invention relates to methods of detecting a planarization endpoint in chemical mechanical planarization of a substrate wherein a detectable target is located at the endpoint and then detected during the CMP planarization. The invention also relates to layered substrates that contain a detectable target located between a first layer of material and a second layer of material. The invention also relates to methods of chemical mechanical planarization of a substrate.

Abstract: The invention provides a chemical-mechanical polishing system, and a method of polishing using the system, comprising (a) an abrasive, a polishing pad, or both an abrasive and a polishing pad, (b) iodine, (c) an iodine vapor-trapping agent, and (d) a liquid carrier.

Abstract: Alpha-amino acid containing chemical mechanical polishing compositions and slurries that are useful for polishing substrates including multiple layers of metals, or metals and dielectrics.

Abstract: Methods for fabricating a variety of microlens array structures on substrates using chemical mechanical polishing techniques.

Abstract: Methods, including chemical mechanical polishing methods, for creating a focusing surface on the exposed end of one or more single mode fiber cores which focusing surface is self-aligned to the fiber core axis.

Abstract: A chemical mechanical polishing slurry comprising a film forming agent, an oxidizer, a complexing agent and an abrasive, and a method for using the chemical mechanical polishing slurry to remove copper alloy, titanium, and titanium nitride containing layers from a substrate.

Abstract: A chemical mechanical polishing slurry comprising an oxidizing agent, a complexing agent, an abrasive, and an optional surfactant, as well as a method for using the chemical mechanical polishing slurry to remove copper alloy, titanium, titanium nitride, tantalum and tantalum nitride containing layers from a substrate. The slurry does not include a separate film-forming agent.

Abstract: A chemical mechanical polishing slurry comprising a film forming agent, urea hydrogen peroxide, a complexing agent, an abrasive, and an optional surfactant, as well as a method for using the chemical mechanical polishing slurry to remove copper alloy, titanium, and titanium nitride containing layers from a substrate.