摘要:
The invention provides slurry-less chemical-mechanical polishing processes which are effective in planarizing oxide materials, especially siliceous oxides, even where the starting oxide layer has significant topographical variation. The processes of the invention are characterized by the use of a fixed abrasive polishing element and by use of an aqueous liquid medium containing a cationic surfactant for at least a portion of the polishing process involving reduction in the amount of topographic variation (height differential) across the oxide material on the substrate. The method reduces or eliminates the transfer of topographic variations to levels below the desired planarization level.
摘要:
The invention provides slurry-less chemical-mechanical polishing processes which are effective in planarizing oxide materials, especially siliceous oxides, even where the starting oxide layer has significant topographical variation. The processes of the invention are preferably characterized by the use of a fixed abrasive polishing element and by use of an aqueous liquid medium containing a polyelectrolyte for at least a portion of the polishing process involving reduction in the amount of topographic variation (height differential) across the oxide material on the substrate. The method reduces or eliminates the transfer of topographic variations to levels below the desired planarization level. The processes enable elimination of special endpoint detection techniques. The processes are also especially suitable for polishing interlevel dielectrics.
摘要:
A method for polishing a dielectric layer containing silicon provides a fluorine-based inorganic compound during a polishing process. The dielectric layer is polished in the presence of the fluorine based compound to accelerate a polishing rate of the dielectric layer.
摘要:
A polishing process in a semiconductor device fabrication process employs a polishing composition in which a gaseous phase is created within the polishing composition. During a polishing process, the gaseous phase dynamically responds to changes in the surface profile of the material undergoing removal by chemical and abrasive action during polishing. The inert gas bubble density dynamically increases in proximity to surface region of the substrate being polished that are prone to dishing and erosion. The increased inert gas bubble density operates to reduce the polish removal rate relative to other regions of the substrate. The dynamic action of the gaseous phase within the polishing composition functions to selectively reduce the localized polish removal rate such that a uniformly smooth and flat polished surface is obtained that is independent of the influence of pattern density during the polishing process.
摘要:
A polishing process in a semiconductor device fabrication process employs a polishing composition in which a gaseous phase is created within the polishing composition. During a polishing process, the gaseous phase dynamically responds to changes in the surface profile of the material undergoing removal by chemical and abrasive action during polishing. The inert gas bubble density dynamically increases in proximity to surface region of the substrate being polished that are prone to dishing and erosion. The increased inert gas bubble density operates to reduce the polish removal rate relative to other regions of the substrate. The dynamic action of the gaseous phase within the polishing composition functions to selectively reduce the localized polish removal rate such that a uniformly smooth and flat polished surface is obtained that is independent of the influence of pattern density during the polishing process.
摘要:
A chemical mechanical polishing (CMP) apparatus includes a workpiece carrier configured for retaining a workpiece thereupon, a polishing platen configured for retaining a polishing pad thereupon, and an electromagnetic coil surrounding a periphery of the workpiece carrier. The electromagnetic coil is configured to provide a magnetic field of alternating polarity to cause the rotation of ferromagnetic slurry particles disposed on the workpiece to facilitate polishing of the workpiece.
摘要:
Disclosed herein are a system and method of polishing a layer of a substrate. The disclosed method includes providing a polishing apparatus adapted to impart relative movement between a polishing pad and a substrate having a first layer to be polished; providing a liquid medium having a pH between 4 and 11 to an interface between the substrate and the polishing pad, the liquid medium including a pH controlling substance including at least one of an acid and a base, a carbonate and a stabilizer additive comprising at least one selected from the group consisting of amino acids and polyacrylic acid; and moving at least one of the substrate and the polishing pad relative to the other to polish the layer of the substrate.
摘要:
A Top Oxide Method is used to form an oxide layer over an array of vertical transistors as in a trench dynamic random access memory (DRAM) array with vertically stacked access metal oxide semiconductor field effect transistors (MOSFETs). The Top Oxide is formed by first forming the vertical devices with the pad nitride remaining in place. Once the devices have been formed and the gate polysilicon has been planarized down to the surface of the pad nitride, the pad nitride is stripped away leaving the tops of the gate polysilicon plugs extending above the active silicon surface. This pattern of polysilicon plugs defines the pattern over which the Top Oxide is deposited. The deposited Top Oxide fills the regions between and on top of the polysilicon plugs. The Top Oxide is than planarized back to the tops of the polysilicon plugs so contacts can be made between the passing interconnects and the gates of the vertical devices. The Top Oxide layer serves to separate the passing interconnects from the active silicon thereby reducing capacitive coupling between the two levels and providing a robust etch-stop layer for the reactive ion etch (RIE) patterning of the subsequent interconnect level.
摘要:
Disclosed herein is a method of filling isolation trenches in a substrate. The method includes anisotropically etching trenches in a surface of a substrate and partially filling the trenches with a deposited oxide. As a consequence of the deposition, the oxide accumulates in mounds on the surface between trenches. The trenches are then filled with a supporting material of a highly flowable material such as anti-reflective coating (ARC), low-K dielectric, or a spin-on-polymer, or alternatively, a supporting material of polysilicon. A flattening process is then applied to lower the mound topography. The supporting material is then removed and the filling of the trenches with oxide is then continued. When polysilicon is used as the supporting material, the mounds are removed by wet etching prior to removing the polysilicon.
摘要:
The exposure of the interface between the bottom electrode and barrier layer to a high temperature oxygen ambience is avoided by recessed Pt-in-situ deposited with a barrier layer.