Abstract: Improved titanium nitride barrier layers are formed by depositing a first titanium layer; treating this layer with an oxygen plasma to form an oxygen-containing titanium layer thereover; depositing a titanium nitride layer over the oxygen-containing titanium layer; and treating the titanium nitride layer with an oxygen-containing plasma. Robust titanium nitride barrier layers are formed that can prevent spiking by an overlying aluminum contact layer even after heat treatment up to 550° C.

Abstract: The present invention provides a plasma source that maintains a low coil voltage in the vicinity of the plasma tube, thereby reducing the capacitive coupling between the coil and the plasma and significantly reducing the erosion from the internal surfaces of the plasma tube. The plasma source generally comprises a coil having a first coil segment and a second coil segment, an RF power source connected to the coil and an enclosure disposed between the first coil segment and the second coil segment. The invention also provides a method for generating a plasma, comprising: disposing an enclosure between a first coil segment and a second coil segment; introducing a gas into the enclosure; and supplying an RF power to the coil segments to excite the gas into a plasma state.

Abstract: A plasma chamber in a semiconductor fabrication system improves the uniformity of a high density plasma by optimizing a ratio of RF power from a first coil, surrounding and inductively coupled into the high density plasma, to RF power from a second coil, positioned above a central region and inductively coupled into the high density plasma. It has also been found that an increase in RF power supplied to the second coil positioned above the central region relative to RF power suppled to the first coil surrounding the high density plasma tends to increase the relative density of the plasma toward the center of the high density plasma. It is believed that RF power supplied to the second coil positioned above the central region substrate tends to add more electrons into the central region of the high density plasma to compensate for electrons recombining with plasma ions.

Abstract: A hole filling process for an integrated circuit in which two wiring levels in the integrated circuit are connected by a narrow hole, especially where the underlying level is silicon. First, a physical vapor deposition (PVD) process fills a barrier tri-layer into the hole. The barrier tri-layer includes sequential layers of Ti, TiN, and graded TiNx, grown under conditions of a high-density plasma. Thereafter, a first aluminum layer is PVD deposited under conditions of a high-density plasma. A filling aluminum layer is then deposited by standard PVD techniques.

Abstract: An inventive module and fabrication system for processing semiconductor devices reduces the overall cost per unit processed, by eliminating the need for expensive rotational robots. The modules and fabrication system are configured so that wafer handlers are required to travel only along linear paths. The inventive modules may include an integral conveyor or may couple a remote conveyor. Preferably, the conveyor is positioned normal to the wafer handler's transport path in order to achieve the most compact footprint.

Abstract: A process for patterning a feature on a substrate using; a plasma polymerized methylsilane (PPMS) photoresist layer or similar organosilicon film. The process includes the step of depositing a PPMS film having upper and lower strata such that the upper stratum is more photosensitive to ultraviolet radiation than is the lower stratum. In one embodiment, the upper and lower strata are formed in a multistep deposition process that, preferably, takes place in a single deposition chamber. In another embodiment, the upper and lower strata are formed by a process in which deposition parameters are modified to deposit a PPMS layer having a photosensitivity gradient between the upper and lower strata. In still another embodiment, various intermediate strata are formed. Preferably, each intermediate stratums has a photosensitivity that is higher than the stratum directly beneath it.

Abstract: An apparatus, method and medium is provided for increasing the efficiency with which wafers are transferred among different processing chambers in a wafer processing facility. A multi-slot cooling chamber allows multiple wafers to be cooled while other wafers are subjected to processing steps in other chambers. Each wafer in the processing sequence is assigned a priority level depending on its processing stage, and this priority level is used to sequence the movement of wafers between chambers. A look-ahead feature prevents low-priority wafer transfers from occurring if such transfers would occur just prior to the scheduling of a high-priority wafer transfer.

Abstract: In chemical mechanical polishing, a substrate is planarized with one or more fixed-abrasive polishing pads. Then the substrate is polished with a standard polishing pad to remove scratch defects created by the fixed-abrasive polishing pads.

Abstract: Plasma enhanced chemical vapor deposition (PECVD) reactors and methods of effecting the same are described. In accordance with a preferred implementation, a reaction chamber includes first and second electrodes operably associated therewith. A single RF power generator is connected to an RF power splitter which splits the RF power and applies the split power to both the first and second electrodes. Preferably, power which is applied to both electrodes is in accordance with a power ratio as between electrodes which is other than a 1:1 ratio. In accordance with one preferred aspect, the reaction chamber comprises part of a parallel plate PECVD system. In accordance with another preferred aspect, the reaction chamber comprises part of an inductive coil PECVD system. The power ratio is preferably adjustable and can be varied. One manner of effecting a power ratio adjustment is to vary respective electrode surface areas.

Abstract: An inspection system using dark field imaging includes a multiple beam laser scanning unit and at least one multiple beam dark field imaging unit. The laser scanning unit generates multiple beams which illuminate multiple spots on a surface to be scanned. The imaging unit separately detects light scattered from the multiple spots. The spots are separated by a separation distance which ensures that scattered light from each associated spot are received only by its associated photodetector. Each imaging unit includes collection optics and multiple photodetectors, one per spot. The collection optics and photodetectors are mounted so as to separate the light scattered from the different scan lines. In one embodiment, this separation is provided by arranging the collection optics and photodetectors according to the principles of Scheimpflug imaging.

Abstract: In a plasma generating apparatus, RF energy applied to a coil positioned to sputter material onto a workpiece, is modulated to control the biasing of the coil. As a consequence, control of coil sputtering may be improved such that the uniformity of deposition may also be improved.

Abstract: The present invention provides straight forward methods for plasma etching a trench having rounded top corners, or rounded bottom corners, or both in a silicon substrate. A first method for creating a rounded top corner on the etched silicon trench comprises etching both an overlying silicon oxide layer and an upper portion of the silicon substrate during a “break-through” step which immediately precedes the step in which the silicon trench is etched. The plasma feed gas for the break-through step comprises carbon and fluorine. In this method, the photoresist layer used to pattern the etch stack is preferably not removed prior to the break-through etching step. Subsequent to the break-through step, a trench is etched to a desired depth in the silicon substrate using a different plasma feed gas composition.

Abstract: A method of etching silicon using a gas mixture comprising fluorine (F) and oxygen (O). A fluoro-hydrocarbon gas is also used to provide added flexibility for profile and dimension control in the silicon trench. The method is applied to trench etching in a silicon substrate, and results in an etch rate exceeding about 1 &mgr;m/min. with a photoresist selectivity as high as about 9:1. The method can also be applied to etching doped or undoped polysilicon or amorphous silicon.

Abstract: An improved system for performing plasma enhanced PVD of copper, aluminum, tungsten or other metallic material is disclosed. The system has markedly improved performance in the critical area of unwanted in-film particle deposits. The improved performance is provided by lowering the operating temperature of the RF coil used in the plasma enhanced PVD system and by carefully smoothing the outer surface of the RF coil. High conductivity material in the coil supports, increased contact area between the coil supports and the RF coil, and the use of active cooling of the coil further enhance the performance of the system.

Abstract: A method for rapidly dechucking a wafer from a chuck by applying a voltage that between the wafer and the electrode that performs a hysteretic discharge cycle such that residual charge is removed. The voltage is a decaying oscillating waveform that provides a decaying electric field at the wafer to chuck surface interface. The form of this field at this interface is very important to achieving rapid dechucking of less than 200 mS.

Abstract: Improved semiconductor processing chamber parts are provided. An improved part is made of an underlying part having both an intermediate coating and a surface layer applied thereto. The intermediate coating includes a plurality of layers each having a CTE intermediate the CTE of the underlying part and the CTE of the surface layer. The intermediate coating reduces the stress between any two layers, allowing use of underlying parts and surface layers having dissimilar CTEs. The universe of acceptable materials for use within a semiconductor processing chamber is expanded, as fewer selection criteria exist for a given layer.

Abstract: A conditioner head for conditioning the polishing surface of a polishing pad. The conditioner head includes a drive element carried for rotation about a longitudinal axis and a disk backing element. The disk backing element carries an abrasive disk and holds the lower surface of the disk in engagement with the polishing pad. The conditioner head further includes a driven element coupling the disk backing element to the drive element to transmit torque and rotation therebetween. The driven element is longitudinally movable between retracted and extended positions. An annular diaphragm spans a gap between the drive element and the driven element and is coupled to the drive element and to the driven element to rotate therewith as a unit.

Abstract: The invention is embodied in a coil antenna for radiating RF power supplied by an RF source into a vacuum chamber, the coil antenna including plural helical conductors each having a first end and a second end, the first ends being adapted for connection to a first common RF potential, the second ends being adapted for connection to a second common RF potential, each of the plural conductors being wound about a common axis of helical symmetry, each of the second ends being spaced substantially equally from the axis and from each other.