Abstract: The present invention provides an HDP-CVD tool using simultaneous deposition and sputtering of doped and undoped silicon dioxide capable of excellent gap fill and blanket film deposition on wafers. The tool of the present invention includes: a dual RF zone inductively coupled plasma source; a dual zone gas distribution system; temperature controlled surfaces within the tool; a symmetrically shaped turbomolecular pumped chamber body; a dual cooling zone electrostatic chuck; an all ceramic/aluminum alloy chamber; and a remote plasma chamber cleaning system.

Abstract: A helicon wave, high density RF plasma reactor having improved plasma and contaminant control. The reactor contains a well defined anode electrode that is heated above a polymer condensation temperature to ensure that deposits of material that would otherwise alter the ground plane characteristics do not form on the anode. The reactor also contains a magnetic bucket for axially confining the plasma in the chamber using a plurality of vertically oriented magnetic strips or horizontally oriented magnetic toroids that circumscribe the chamber. The reactor may utilize a temperature control system to maintain a constant temperature on the surface of the chamber.

Abstract: The present invention provides an apparatus and method for measuring the temperature of a moving radiant object. A probe, such as a pyrometer, is disposed in an opening of a vacuum chamber adjacent a radiation transparent window. The probe defines an optical path which intercepts the radiant object entering or exiting a processing chamber. The radiant object is moved through the optical path and emits electromagnetic waves. The electromagnetic waves are collected by the probe and transmitted to a signal processing unit where the waves are detected and converted to a temperature reading. If desired, the accumulated data may then be used to generate a cooling curve representing the thermal effects experienced by the radiant object. Extrapolation or correlation methods may be used to extend the cooling curve to points in time prior to or after the data collected by the probe.

Abstract: A semiconductor manufacturing process with improved gap fill capabilities is provided by a three step process of FSG deposition/etchback/FSG deposition. A first layer of FSG is partially deposited over a metal layer. An argon sputter etchback step is then carried out to etch out excess deposition material. Finally, a second layer of FSG is deposited to complete the gap fill process.

Abstract: A wafer support device is provided. The wafer support device includes a susceptor having a surface configured to support a bottom surface of a wafer. The susceptor has a plurality of guiding recesses. The wafer support device also includes a pin lift that has a plurality of pins extending therefrom. The plurality of pins is configured to be passed via the plurality of guiding recesses of the susceptor to engage the bottom surface of the wafer. The susceptor is configured to be moved relative to the plurality of pins in a direction substantially orthogonal to the surface of the susceptor.

Abstract: The present invention provides systems, methods and apparatus for depositing titanium films at rates up to 200 Å/minute on semiconductor substrates from a titanium tetrachloride source. In accordance with an embodiment of the invention, a ceramic heater assembly with an integrated RF plane for bottom powered RF capability allows PECVD deposition at a temperature of at least 400° C. for more efficient plasma treatment. A thermal choke isolates the heater from its support shaft, reducing the thermal gradient across the heater to reduce the risk of breakage and improving temperature uniformity of the heater. A deposition system incorporates a flow restrictor ring and other features that allow a 15 liters/minute flow rate through the chamber with minimal backside deposition and minimized deposition on the bottom of the chamber, thereby reducing the frequency of chamber cleanings, and reducing clean time and seasoning. Deposition and clean processes are also further embodiments of the present invention.

Abstract: A method and an apparatus for depositing a dielectric layer to fill in a gap between adjacent metal lines. In preferred embodiments of the method, a first dielectric layer is deposited over the lines and subsequently etched using both chemical and physical etchback steps. After the etchback steps are completed, a second dielectric layer is deposited over the first dielectric layer to fill in the gap.

Abstract: A deposition system in a semiconductor fabrication system provides a slotted grounded darkspace shield, which protects the target sidewalls. It has been found that an axial slot in the grounded darkspace shield can prevent eddy currents from flowing in the darkspace shield and thereby prevent RF power losses due to eddy currents that would otherwise flow in an unslotted darkspace shield due to RF power applied to an RF coil-shield. By preventing the RF power losses, the RF coupling efficiency of RF power applied to the RF coil-shield can also be improved.

Abstract: A chemical mechanical polishing apparatus includes two optical systems which are used serially to determine polishing endpoints. The first optical system includes a first light source to generate a first light beam which impinges on a surface of the substrate, and a first sensor to measure light reflected from the surface of the substrate to generate a measured first interference signal. The second optical system includes a second light source to generate a second light beam which impinges on a surface of the substrate and a second sensor to measure light reflected from the surface of the substrate to generate a measured second interference signal. The second light beam has a wavelength different from the first light beam.

Abstract: A process chamber 25 for processing a semiconductor substrate, comprises a support for supporting a substrate 50. A gas distributor 90 provided for introducing process gas into the chamber 25, comprises a gas nozzle for injecting process gas at an inclined angle relative to a plane of the substrate 50, into the chamber 25. Optionally, a gas flow controller 100 controls and pulses the flow of process gas through one or more gas nozzles 140. An exhaust is used to exhaust the process gas from the chamber 25.

Abstract: An alignment mechanism for aligning a substrate on a support member in a process chamber includes a set of guide pins extending from the upper surface of the support member equally spaced about the periphery thereof and spaced to receive a substrate therebetween and align a shadow ring thereover. The inner surfaces of the guide pins are slanted outwardly to form an inverted funnel for receiving and aligning the substrate on the support member. An annular gas groove in the upper surface of the support member provides communication for a supply of purge gas and directs the gas about the peripheral edge of the substrate. The guide pins which extend partially over the gas groove include slots therein that provide fluid communication through the guide pins from the gas groove to the peripheral edge of the substrate.

Abstract: An apparatus for converting PFC gases exhausted from semiconductor processing equipment to less harmful, non-PFC gases. One embodiment of the apparatus includes a silicon filter and a plasma generation system. The plasma generation system forms a plasma from the effluent PFC gases. Constituents from the plasma react with silicon and/or oxygen in the filter and convert the effluent PFC gases to less harmful, non-PFC gaseous products and byproducts. Another embodiment includes a plasma generation system and a particle trapping and collection system. The particle trapping and collection system traps silicon containing residue from deposition processes that produces such residue, and the plasma generation system forms a plasma from the effluent PFC gases. Constituents from the plasma react with the collected residue to convert the effluent PFC gases to less harmful, non-PFC gaseous products and byproducts.

Abstract: The invention provides a system for providing a flow of a short-lived, reactive process gas species into an RTP chamber without creating ionic species. An RTP chamber includes a transparent quartz window assembly. The window assembly has a first pane facing a wafer inside the RTP chamber. A second pane is positioned adjacent a heat lamp array on the outside of the RTP chamber. A window side wall joins the first and second panes at their peripheral edges to provide an internal chamber therebetween. A plurality of channels extend through the first pane from the internal chamber to the inside of the RTP chamber. A port communicates between the internal chamber and a process gas source. The window assembly also includes a reflective surface facing the internal chamber. An ultraviolet light source is positioned to illuminate process gas flowing through the window assembly with ultraviolet light such that the ultraviolet light alters the chemistry of the process gas.

Abstract: We have discovered that complete copper filling of semiconductor features such as trenches and vias, without the formation of trapped voids, can be accomplished using a copper reflow process when the unfilled portion of the feature structure prior to reflow comprises a capillary within the feature, wherein the volume of the capillary represents between about 20% and about 90%, preferably between about 20% and about 75% of the original feature volume prior to filling with copper. The aspect ratio of the capillary is preferably at least 1.5. The maximum opening dimension of the capillary is less than about 0.8 &mgr;m. The preferred substrate temperature during the reflow process includes it either a soak at an individual temperature or a temperature ramp-up or ramp-down where the substrate experiences a temperature within a range from about 300° C. to about 600° C., more preferably between about 300° C. and about 450° C.

Abstract: A structure and method are present where a sidewall of a load lock chamber is formed by extrusion, to produce a reproducible tubular structure to form the walls of a vacuum chamber with greatly improved vacuum performance. The use of an extruded structure reduces the dimensional variability, increases the uniformity of a surface finish, and provides uniform top and bottom sealing arrangements, which allow full and easy access to the inside of the sidewalls for cleaning. In another arrangement heat transfer fluid passages can be formed in the wall of the chamber simultaneously as the wall of the chamber is extruded. Heating of cooling liquid can then be circulated through the passages in the wall of the chamber to heat the walls of the chamber as sometimes required to prevent condensation on the inside of the chamber walls, or provide cooling as is required for cool down of a wafer, after processing at an elevated temperature.

Abstract: A plasma etch process is described for the etching of oxide with a high selectivity to nitride, including nitride formed on uneven surfaces of a substrate, e.g., on sidewalls of steps on an integrated circuit structure. The addition of a hydrogen-bearing gas to C4F8 or C2F6 etch gases and a scavenger for fluorine, in a plasma etch process for etching oxide in preference to nitride, results in a high selectivity to nitride which is preserved regardless of the topography of the nitride portions of the substrate surface.

Abstract: The present invention provides an HDP-CVD tool using simultaneous deposition and sputtering of doped and undoped silicon dioxide capable of excellent gap fill and blanket film deposition on wafers. The tool of the present invention includes: a dual RF zone inductively coupled plasma source; a dual zone gas distribution system; temperature controlled surfaces within the tool; a symmetrically shaped turbomolecular pumped chamber body; a dual cooling zone electrostatic chuck; an all ceramic/aluminum alloy chamber; and a remote plasma chamber cleaning system.

Abstract: An apparatus and method is provided for capturing, heating and degassing a wafer without using moving parts and without exposing the wafer to external stress. A degassing chamber is backfilled with a dry gas that improves wafer heating ramp rates and wafer heating uniformity. The backfilled gas efficiently conducts heat at relatively low pressures. Thus the degassing chamber may be evacuated via a cryo-pump without the need for an intermediate rough pumping step. Further, because the wafer is heated primarily by conduction, wafer temperatures are easily and precisely controlled independent of layers previously deposited on the wafer. Frontside heating elements such as heat generators and/or heat reflectors are provided that further improve wafer heating ramp rates and wafer heating uniformity by directing heat toward the front surface of the wafer. Preferably as heat radiates from the wafer it is reflected back to the wafer by a frontside reflector.

Abstract: A carrier head for a chemical mechanical polishing apparatus. The carrier head includes a housing, a base, a loading mechanism, a gimbal mechanism, and a substrate backing assembly. The substrate backing assembly includes a support structure positioned below the base, a substantially horizontal, annular flexure connecting the support structure to the base, and a flexible membrane connected to the support structure. The flexible membrane has a mounting surface for a substrate, and extends beneath the base to define a chamber.