Abstract: A pressure for a chamber is regulated by controlling either the exhaust pressure at the exhaust side of a first vacuum pump or the internal pressure at a compression stage of the first vacuum pump, where the first vacuum pump is directly communicating with the chamber. The pressure of the chamber can be regulated by combinations of the following: controlling the variable rotational frequency of a roots vacuum pump, a pre-vacuum pump, or a high compression pump; controlling a control valve between a pre-vacuum pump and the first vacuum pump; controlling a control valve for injecting gas into the exhaust side of the first vacuum pump or into the compression stage of the first vacuum pump; and controlling a control valve or control valves for bypassing the first vacuum pump or a compression stage or compression stages of the first vacuum pump.

Abstract: A chemical mechanical polishing apparatus includes a rotating plate on which a substrate is received, and a polishing pad which moves across the substrate as it rotates on the plate to polish the substrate. The load of the pad against the substrate, and the rotary speed of the plate, may be varied to control the rate of material removed by the pad.

Abstract: Apparatus and a concomitant method for estimating voltage on a wafer located in a process chamber. A probe, attached externally to a wall of the process chamber, detects voltage levels generated by a plasma within said process chamber. A relationship between the detected plasma voltage level and the wafer voltage is determined.

Abstract: A computer-implemented method of achieving inter-chamber synchronization in a system for integrated circuit manufacturing that includes first and second chambers. In particular, the disclosed method includes terminating a second operation in a second recipe carried out in the second chamber, upon termination of a first operation in a first recipe carried out in the first chamber. Performance advantages realized by the method are illustrated for various cases including 1) a variable-length first operation; 2) a fixed-length first operation; 3) a process first recipe; 4) a conditioning first recipe; 5) a process second recipe; and 6) a conditioning second recipe.

Abstract: A method of stabilizing chemical vapor deposited titanium nitride layers so that they can withstand a subsequent high temperature deposition of aluminum which comprises heating said film in nitrogen containing from about 3-15% by volume of oxygen. When aluminum is deposited over the treated titanium nitride film, the barrier properties of the titanium nitride are maintained up to temperatures of at least about 575.degree. C.

Abstract: An electrically activated focus ring (90) for plasma processing a substrate (25) in a plasma zone comprises a dielectric barrier (92) with a plasma focusing surface (95) for focusing the plasma onto the substrate surface, and an opposing surface (98). The focus ring (90) comprises an electrical conductor element (100) abutting at least a portion of the opposing surface (98) of the dielectric barrier (92). The conductor element (100) is electrically isolated from the plasma and capable of being electrically charged to attract the plasma to reduce formation of deposits on the plasma focusing surface (95) of the dielectric barrier (92).

Abstract: Apparatus for supporting a wafer in a semiconductor wafer processing system. The apparatus contains a pedestal assembly, a ring assembly circumscribing the pedestal and an insulator between the pedestal assembly and ring assembly. The insulator electrically isolates the pedestal assembly from the ring assembly thereby preventing unwanted power coupling through the ring assembly.

Abstract: A probe for measuring the temperature of a substrate in a substrate processing chamber. The probe includes a light pipe, one end of which is inserted into the processing chamber. The other end of the light pipe is connected to a bifurcated optical fiber. A light source is optically coupled to one branch of the optical fiber, and a pyrometer is optically coupled to another branch. To self-calibrate the probe, an object of stable reflectivity, e.g., a gold-plated wafer, is inserted into the chamber, the light source is activated, and the intensity of light reflected from the object is measured by the pyrometer.

Abstract: A surface particle sampling head having a rotatable probe The sampling head contains a handle, a probe and a joint connecting the handle to the probe such that the probe rotates relative to the handle. Preferably, the rotatable joint is a universal joint that enables the probe to gimbal relative to the handle. The probe further contains a manifold having a releasably attached face plate.

Abstract: The present invention provides systems, methods and apparatus for high temperature (at least about 500-800.degree. C.) processing of semiconductor wafers. The systems, methods and apparatus of the present invention allow multiple process steps to be performed in situ in the same chamber to reduce total processing time and to ensure high quality processing for high aspect ratio devices. Performing multiple process steps in the same chamber also increases the control of the process parameters and reduces device damage. In particular, the present invention can provide high temperature deposition, heating and efficient cleaning for forming dielectric films having thickness uniformity, good gap fill capability, high density, low moisture, and other desired characteristics.

Abstract: A chemical mechanical polishing apparatus includes a rotating plate on which a substrate is received, and a polishing pad which moves across the substrate as it rotates on the plate to polish the substrate. The load of the pad against the substrate, and the rotary speed of the plate, may be varied to control the rate of material removed by the pad.

Abstract: Described is an improved polysilicon/tungsten silicide (WSi.sub.x) composite layer formed over an integrated circuit structure on a semiconductor wafer and characterized by improved step coverage and non tungsten-rich tungsten:silicon ratio of the WSi.sub.x layer, and a method of forming same. A doped layer of polysilicon is formed in a first deposition chamber over an integrated circuit structure previously formed on a semiconductor substrate and a capping layer of undoped polysilicon is then deposited in the first deposition chamber over the doped polysilicon layer. The substrate is then transferred from the first deposition chamber into a second deposition chamber without exposing the surface of the polysilicon layer to an oxidizing media.

Abstract: A near substrate reactant homogenization apparatus reduces the excess reactive species in a region at or near the edge of a substrate surface to provide a uniform reactant concentration over the substrate, thereby improving etch rate uniformity over the substrate. The near substrate reactant homogenization apparatus has a substantially planar surface that is parallel to said substrate surface and that extends beyond the substrate edge, at or below the substrate surface. In a first preferred embodiment of the invention, the temperature of the gas absorber area is changed to promote recombination or condensation of excess reactive species at the substrate edge, where the excess species are removed. In another, equally preferred embodiment of the invention, the gas absorber area is formed of a porous material having a large surface area. Excess reactive species enter the porous structure and are subsequently recombined.

Abstract: A conditioner apparatus uses one or more linear conditioners. The linear conditioners extend from the edge of the polishing pad almost to the center of the pad. The conditioner apparatus may use two conditioner rods located on either side of a radial segment. The rods gimbal so that if one rod rises, the other rod is forced downwardly. In addition, the rods can pivot independently about a lateral axis, but they cannot pivot around the vertical axis. The linear conditioners may be actuated by a piezoelectric member or swept by an arm toward and away from the center of the polishing pad.

Abstract: The present invention provides systems, methods and apparatus for high temperature (at least about 500-800.degree. C.) processing of semiconductor wafers. The systems, methods and apparatus of the present invention allow multiple process steps to be performed in situ in the same chamber to reduce total processing time and to ensure high quality processing for high aspect ratio devices. Performing multiple process steps in the same chamber also increases the control of the process parameters and reduces device damage. In particular, the present invention can provide high temperature deposition, heating and efficient cleaning for forming dielectric films having thickness uniformity, good gap fill capability, high density, low moisture, and other desired characteristics.

Abstract: The present invention provides systems, methods and apparatus for high temperature (at least about 500-800.degree. C.) processing of semiconductor wafers. The systems, methods and apparatus of the present invention allow multiple process steps to be performed in situ in the same chamber to reduce total processing time and to ensure high quality processing for high aspect ratio devices. Performing multiple process steps in the same chamber also increases the control of the process parameters and reduces device damage. In particular, the present invention can provide high temperature deposition, heating and efficient cleaning for forming dielectric films having thickness uniformity, good gap fill capability, high density, low moisture, and other desired characteristics.

Abstract: Vacuum CVD chambers are disclosed which provide a more uniformly deposited thin film on a substrate. The chamber susceptor mount for the substrate is heated resistively with a single coil firmly contacting the metal of the susceptor on all sides, providing uniform temperatures across the susceptor mount for a substrate. A purge gas line is connected to openings in the susceptor outside of the periphery of the substrate to prevent edge and backside contamination of the substrate. A vacuum feed line mounts the substrate to the susceptor plate during processing. A refractory purge guide, or a plurality of placement pins, maintain a fixed gap passage for the purge gases to pass alongside the edge of the wafer and into the processing area of the chamber. An exhaust pumping plate improves the uniformity of exhaustion of spent gases from the chamber.

Abstract: A plasma etch process for an insulating layer, such as silicon dioxide, overlaying a silicide layer having a high selectivity with respect to the silicide layer is disclosed, comprising the use of a mixture of a nitrogen-containing gas and one or more other fluorine-containing etch gases in an etch chamber maintained within a pressure range of from about 5 millitorr to about 400 millitorr. The high selectivity exhibited by the etch process of the invention permits operation of the etch process at reduced pressures of from as low as 5 millitorr to about 30 millitorr to achieve complete etching of vertical sidewall openings in the oxide layer with significant overetch capability.

Abstract: A chemical mechanical polishing apparatus includes a rotating plate on which a substrate is received, and a polishing pad which moves across the substrate as it rotates on the plate to polish the substrate. The load of the pad against the substrate, and the rotary speed of the plate, may be varied to control the rate of material removed by the pad.

Abstract: A sequence of process steps forms a fluorinated silicon glass (FSG) layer on a substrate. This layer is much less likely to form a haze or bubbles in the layer, and is less likely to desorb water vapor during subsequent processing steps than other FSG layers. An undoped silicon glass (USG) liner protects the substrate from corrosive attack. The USG liner and FSG layers are deposited on a relatively hot wafer surface and can fill trenches on the substrate as narrow as 0.8 .mu.m with an aspect ratio of up to 4.5:1.