Abstract: In a first aspect, a method is provided for use during plasma processing. The first method includes the steps of (1) placing a substrate on a substrate holder of a plasma chamber; (2) positioning a cover frame adjacent and below a perimeter of the substrate; and (3) employing the cover frame to reduce arcing during plasma processing within the plasma chamber. Numerous other aspects are provided.

Abstract: Methods and apparatus to implement techniques for monitoring polishing a substrate. Two or more data points are acquired, where each data point has a value affected by features inside a sensing region of a sensor and corresponds to a relative position of the substrate and the sensor as the sensing region traverses through the substrate. A set of reference points is used to modify the acquired data points. The modification compensates for distortions in the acquired data points caused by the sensing region traversing through the substrate. Based on the modified data points, a local property of the substrate is evaluated to monitor polishing.

Abstract: A cleaning process for recovering an anodized aluminum part is particularly useful when the part has been exposed to a fluorine-containing plasma in etch reactor. The part is bathed in an agitated solution of a fluoride acid, such as ammonium fluoride, which converts aluminum fluoride to a soluble fluoride. The part is rinsed in water. The pores of the cleaned anodization may be resealed by a submerging the part in hot agitated deionized water.

Abstract: The present invention relates to a method for manufacturing a backside contact of a semiconductor component, in particular, of a solar cell, comprising a metallic layer on the backside of a substrate in a vacuum treatment chamber, and the use of a vacuum treatment system for performing said method. Through this method and its use, in particular silicon based solar cells, can be provided with a back contact in a simple manner in a continuous process sequence, wherein the process sequence can be provided particularly efficient and economical, since no handling systems for rotating the substrate are required, and in particular silk screening steps can be dispensed with.

Abstract: A method of controlling a plasma processing according to trajectories connecting start and stop values of parameters controlling the plasma processing, for example, gas flow and power supplied to generate the plasma. The trajectories maybe based on equations including at least time as a variable. At set times within the processing, the values of the parameters are updated according to the predetermined trajectories. Sensors associated with the chamber may also adjust the trajectories, provide variables to the equations, and/or define the trajectories.

Abstract: A silicon-on-insulator transfer wafer having a front surface with a circumferential lip around a circular recess is polished. In one version, the circular recess on the front surface of the wafer is masked by filling the recess with spin-on-glass. The front surface of the wafer is exposed to an etchant to preferentially etch away the circumferential lip, while the circular recess is masked by the spin-on-glass. The spin-on glass is removed, and the front surface of the transfer wafer is polished. Other methods of removing the circumferential lip include applying a higher pressure to the circumferential lip in a polishing process, and directing a pressurized fluid jet at the base of the circumferential lip.

Abstract: Methods of curing a silicon oxide layer on a substrate are provided. The methods may include the processes of providing a semiconductor processing chamber and a substrate and forming an silicon oxide layer overlying at least a portion of the substrate, the silicon oxide layer including carbon species as a byproduct of formation. The methods may also include introducing an acidic vapor into the semiconductor processing chamber, the acidic vapor reacting with the silicon oxide layer to remove the carbon species from the silicon oxide layer. The methods may also include removing the acidic vapor from the semiconductor processing chamber. Systems to deposit a silicon oxide layer on a substrate are also described.

Abstract: A method for controlling etch processes during fabrication of semiconductor devices comprises tests and measurements performed on non-product and product substrates to define an N-parameter CD control graph that is used to calculate a process time for trimming a patterned mask to a pre-determined width. An apparatus for performing such a method.

Abstract: Methods of depositing a dielectric layer in a gap formed on a substrate are described. The methods include introducing an organo-silicon precursor and an oxygen precursor to a deposition chamber. The organo-silicon precursor has a C:Si atom ratio of less than 8, and the oxygen precursor comprises atomic oxygen that is generated outside the deposition chamber. The precursors are reacted to form the dielectric layer in the gap. Methods of filling gaps with dielectric materials are also described. These methods include providing an organo-silicon precursor having a C:Si atom ratio of less than 8 and an oxygen precursor, and generating a plasma from the precursors to deposit a first portion of the dielectric material in the gap. The dielectric material may be etched, and a second portion of dielectric material may be formed in the gap. The first and second portions of the dielectric material may be annealed.

Abstract: The present invention is directed to improving defect performance in semiconductor processing systems. In specific embodiments, an apparatus for processing semiconductor substrates comprises a chamber defining a processing region therein, and a substrate support disposed in the chamber to support a semiconductor substrate. At least one nozzle extends into the chamber to introduce a process gas into the chamber through a nozzle opening. The apparatus comprises at least one heat shield, each of which is disposed around at least a portion of one of the at least one nozzle. The heat shield has an extension which projects distally of the nozzle opening of the nozzle and which includes a heat shield opening for the process gas to flow therethrough from the nozzle opening. The heat shield decreases the temperature of nozzle in the processing chamber for introducing process gases therein to reduce particles.

Abstract: Embodiments of an apparatus for sealing a substrate transfer passage in a chamber are provided. In one embodiment, an apparatus for sealing a substrate transfer passage in a chamber includes an elongated door member having a concave sealing face coupled to an actuator by a flexible coupling. The flexible coupling configured to allow movement of the door member relative to the lever arm in at least two planes.

Abstract: A cascaded image intensifier device is presented. In one embodiment the device comprises: at least two sections in cascade, each of a first section and a last section out of the at least two sections including a photocathode unit adapted to convert photons to electrons and a screen unit adapted to convert electrons to photons; wherein the first section includes a reducing element adapted to: (i) reduce ion-caused degradation of a photocathode unit of the first section, and (ii) reduce a number of photons exiting from the first section from a first value to a second value; and wherein the last section outputs a number of photons that equals or exceeds the first value. Also disclosed are methods and systems using the disclosed cascaded image intensifier device.

Abstract: In a first aspect, a substrate positioning system includes a plurality of pushers arranged in a spaced relation about a stage adapted to support a substrate. Each pusher is adapted to assume a retracted position so as to permit the substrate to be loaded onto and unloaded from the stage, extend toward an edge of the substrate that is supported by the stage, contact the edge of the substrate, and continue extending so as to cause the substrate to move relative to the stage until the substrate is calibrated to the stage. Numerous other aspects are provided.

Abstract: A method and apparatus for inspecting the surface of articles, such as chips and wafers, for defects, includes a first phase of optically examining the complete surface of the article inspected at a relatively high speed and with a relatively low spatial resolution, and a second phase of optically examining with a relatively high spatial resolution only the suspected locations for the presence or absence of a defect therein.

Abstract: A method for generating a flash. The method includes computing dose correction multipliers taking into account fogging scattering effects, backscattering effects and fast secondary scattering effects; and using the dose correction multipliers to generate the flash.

Abstract: A carrier head for chemical mechanical polishing is described. The carrier head includes a backing assembly, a housing and a damping material. The backing assembly includes a substrate support surface. The housing is connectable to a drive shaft to rotate with the drive shaft about a rotation axis. In one implementation, the damping material is in a load path between the backing assembly and the housing to reduce transmission of vibrations from the backing assembly to the housing.

Abstract: The method involves detecting a first signal characterized by a periodically occurring first event, detecting a second signal characterized by a periodically occurring second event, and based on both the detected first and second signals, generating a third signal characterized by a periodically occurring third event. The method also involves automatically adjusting the phase of the third signal so that the periodically occurring third event occurs at a predetermined location between the first and second events of the first and second signals.

Abstract: The present invention provides an electro-chemical deposition system that is designed with a flexible architecture that is expandable to accommodate future designs and gap fill requirements and provides satisfactory throughput to meet the demands of other processing systems. The electro-chemical deposition system generally comprises a mainframe having a mainframe wafer transfer robot, a loading station disposed in connection with the mainframe, one or more processing cells disposed in connection with the mainframe, and an electrolyte supply fluidly connected to the one or more electrical processing cells. Preferably, the electro-chemical deposition system includes a spin-rinse-dry (SRD) station disposed between the loading station and the mainframe, a rapid thermal anneal chamber attached to the loading station, and a system controller for controlling the electro-chemical deposition process and the components of the electro-chemical deposition system.

Abstract: A method of depositing a bilayer of tungsten over tungsten nitride by a plasma sputtering process in which krypton is used as the sputter working gas during the tungsten deposition. Argon may be used as the sputtering working gas during the reactive sputtering deposition of tungsten nitride. The beneficial effect of reduction of tungsten resistivity is increased when the thickness of the tungsten layer is less than 50 nm and further increased when less than 35 nm. The method may be used in forming a gate stack including a polysilicon layer over a gate oxide layer over a silicon gate region of a MOS transistor in which the tungsten nitride acts as a barrier. A plasma sputter chamber in which the invention may be practiced includes gas sources of krypton, argon, and nitrogen.

Abstract: A method for processing a semiconductor wafer in a plasma reactor comprises sensing transient voltages or currents on a conductor coupled to the wafer and providing a first comparator for comparing the transient voltages or currents with a threshold level stored in the comparator. The method further includes transmitting from the comparator an arc flag signal whenever a transient voltage or current is sensed that exceeds the threshold level, and deactivating the power generator in response to the arc flag signal.