Abstract: A method for optical inspection of a surface includes selecting an apodization scheme in response to a characteristic of the surface, and applying an apodizer to apodize a beam of radiation in response to the selected apodization scheme. The apodized beam of radiation is directed to impinge on the surface, whereby a plurality of rays are scattered from the surface, and at least one of the scattered rays is detected, typically in order to detect a defect on the surface.

Abstract: The embodiments of the present invention generally relate to annular ring used in a plasma processing chamber. In one embodiment, the annular ring includes an inner wall, an upper outer wall, a lower outer wall, a step defined between the upper and lower outer wall, a top surface and a bottom wall. The step is formed upward and outward from the lower outer wall and inward and downward from the upper outer wall. The annular ring may be fabricated from a conductive material, such as silicon carbide and aluminum.

Abstract: A split magnet ring, particularly useful in a magnetron plasma reactor sputter depositing tantalum or tungsten or other barrier metal into a via and also resputter etching the deposited material from the bottom of the via onto the via sidewalls. The magnet ring includes two annular magnet rings composed of the same axial polarity separated by a non-magnetic spacing of at least the axial length of one magnet and associated poles. A small unbalanced magnetrons rotates about the back of the target having an outer pole of the same polarity as the ring magnets surrounding a weaker inner pole of the opposite pole.

Abstract: A method for generating a simulated aerial image of a mask projected by an optical system includes determining a coherence characteristic of the optical system. A coherent decomposition of the optical system is computed based on the coherence characteristic. The decomposition includes a series of expansion functions having angular and radial components that are expressed as explicit functions. The expansion functions are convolved with a transmission function of the mask in order to generate the simulated aerial image.

Abstract: An importance factor generator system for providing an overall importance factor to be used in normalizing variables for multivariate modeling. An importance factor generator system assigns a sensor importance factor (IF) to a sensor, where the sensor IF indicates the importance of the sensor relative to other sensors. The importance factor generator system assigns a recipe step IF to a recipe step, where the recipe step IF indicates the importance of the recipe step relative to other recipe steps. The importance factor generator system can calculate an overall IF using the sensor IF and recipe step IF and provide the overall IF to be used for normalizing variables for multivariate modeling results. The importance factor generator system can display the overall IF in a graphical user interface (GUI).

Abstract: In one embodiment, a method for forming a titanium nitride barrier material on a substrate is provided which includes depositing a titanium nitride layer on the substrate by a metal-organic chemical vapor deposition (MOCVD) process, and thereafter, densifying the titanium nitride layer by exposing the substrate to a plasma process. In one example, the MOCVD process and the densifying plasma process is repeated to form a barrier stack by depositing a second titanium nitride layer on the first titanium nitride layer. In another example, a third titanium nitride layer is deposited on the second titanium nitride layer. Subsequently, the method provides depositing a conductive material on the substrate and exposing the substrate to a annealing process. In one example, each titanium nitride layer may have a thickness of about 15 ? and the titanium nitride barrier stack may have a copper diffusion potential of less than about 5×1010 atoms/cm2.

Abstract: Apparatuses and methods for making a multi-crystalline silicon ingot by directional solidification comprising two or more moveable heat shields located beneath the crucible, the heat shields being opened in a controlled manner to remove heat and produce a high quality silicon ingot.

Abstract: Methods of depositing and curing a dielectric material on a substrate are described. The methods may include the steps of providing a processing chamber partitioned into a first plasma region and a second plasma region, and delivering the substrate to the processing chamber, where the substrate occupies a portion of the second plasma region. The methods may further include forming a first plasma in the first plasma region, where the first plasma does not directly contact with the substrate, and depositing the dielectric material on the substrate to form a dielectric layer. One or more reactants excited by the first plasma are used in the deposition of the dielectric material. The methods may additional include curing the dielectric layer by forming a second plasma in the second plasma region, where one or more carbon-containing species is removed from the dielectric layer.

Abstract: In a plasma immersion ion implantation process, the thickness of a pre-implant chamber seasoning layer is increased (to permit implantation of a succession of wafers without replacing the seasoning layer) without loss of wafer clamping electrostatic force due to increased seasoning layer thickness. This is accomplished by first plasma-discharging residual electrostatic charge from the thick seasoning layer. The number of wafers which can be processed using the same seasoning layer is further increased by fractionally supplementing the seasoning layer after each wafer is processed, which may be followed by a brief plasma discharging of the supplemented seasoning before processing the next wafer.

Abstract: Substrate processing systems are described that may include a processing chamber having an interior capable of holding an internal chamber pressure different from an external chamber pressure. The systems may also include a remote plasma system operable to generate a plasma outside the interior of the processing chamber. In addition, the systems may include a first process gas channel operable to transport a first process gas from the remote plasma system to the interior of the processing chamber, and a second process gas channel operable to transport a second process gas that is not treated by the remote plasma system. The second process gas channel has a distal end that opens into the interior of the processing chamber, and that is at least partially surrounded by the first process gas channel.

Abstract: Disclosed is an invention that uses a coaxial microwave antenna as a primary plasma source in PVD. The coaxial microwave antenna is positioned inside a sputtering target. Instead of using a cathode assist in sputtering, microwaves generated from the coaxial microwave antenna may leak through the sputtering target that comprises a dielectric material to form microwave plasma outside the sputtering target. To further enhance plasma density, a magnetron or a plurality of magnetrons may be added inside the target to help confine secondary electrons. An electric potential may be formed between adjacent magnetrons and may further enhance ionization. To achieve directional control of the generated microwaves, a shield that comprises a dielectric material or dielectric material coated metal may be added proximate the coaxial microwave antenna. Furthermore, for high utilization of expensive target materials, a target can rotate to improve the utilization efficiency.

Abstract: A chemical-mechanical polishing apparatus including a table top, a transfer station mounted on the table top, a plurality of polishing stations mounted on the table top, a plurality of washing stations, and a plurality of carrier heads supported by a support member rotatable about an axis. Each washing station is located between a first polishing station and either a second polishing station or the transfer station, and the transfer station and the plurality of polishing stations are arranged at approximately equal angular intervals about the axis.

Abstract: Disclosed is a structure and method for forming a structure including a SiCOH layer having increased mechanical strength. The structure includes a substrate having a layer of dielectric or conductive material, a layer of oxide on the layer of dielectric or conductive material, the oxide layer having essentially no carbon, a graded transition layer on the oxide layer, the graded transition layer having essentially no carbon at the interface with the oxide layer and gradually increasing carbon towards a porous SiCOH layer, and a porous SiCOH (pSiCOH) layer on the graded transition layer, the porous pSiCOH layer having an homogeneous composition throughout the layer. The method includes a process wherein in the graded transition layer, there are no peaks in the carbon concentration and no dips in the oxygen concentration.

Abstract: Methods and apparatus for providing a chemical mechanical polishing pad. The pad includes a polishing layer having a top surface and a bottom surface. The pad includes an aperture having a first opening in the top surface and a second opening in the bottom surface. The top surface is a polishing surface. The pad includes a window that includes a first portion made of soft plastic and a crystalline or glass like second portion. The window is transparent to white light. The window is situated in the aperture so that the first portion plugs the aperture and the second portion is on a bottom side of the first portion, wherein the first portion acts a slurry-tight barrier.

Abstract: A method for forming metal interconnects on a substrate is described. A substrate with a dielectric layer is positioned within a processing chamber. A first barrier layer is deposited on the dielectric layer and within a plurality of vias of the dielectric layer, wherein the first barrier layer includes beveled edges extending from a field of the substrate to a sidewall surface of each via. The first barrier layer and the dielectric layer are etched to form a recess at each beveled edge. A second barrier layer is deposited over the recess. A metal seed layer deposited over the first barrier layer, the second barrier layer, and within the recess.

Abstract: Methods and apparatus for providing a flushing system for flushing a top surface of an optical head. The flushing system includes a source of gas configured to provide a flow of gas, a delivery nozzle, a delivery line that connects the source of gas to the delivery nozzle, a vacuum source configured to provide a vacuum, a vacuum nozzle, and a vacuum line that connects the vacuum source to the vacuum nozzle. The source of gas and the delivery nozzle are configured to direct a flow of gas across the top surface of the optical head. The vacuum nozzle and vacuum sources are configured so that the flow if gas is laminar.

Abstract: A workpiece support pedestal includes an insulating puck having a workpiece support surface, a conductive plate underlying the puck, the puck containing electrical utilities and thermal media channels, and an axially translatable coaxial RF path assembly underlying the conductive plate. The coaxial RF path assembly includes a center conductor, a grounded outer conductor and a tubular insulator separating the center and outer conductors, whereby the puck, plate and coaxial RF path assembly comprise a movable assembly whose axial movement is controlled by a lift servo. Plural conduits extend axially through the center conductor and are coupled to the thermal media utilities. Plural electrical conductors extend axially through the tubular insulator and are connected to the electrical utilities.

Abstract: A pedestal positioning assembly system for use in a substrate processing system includes a pedestal rigidly attached to a pedestal shaft, a reference rigidly attached to the substrate processing system, a lateral adjustment assembly to adjust a lateral location of the pedestal relative to the reference, and a vertical adjustment assembly to adjust a tilt of the pedestal relative to the reference. The lateral adjustment assembly and the vertical adjustment assembly are external to a processing chamber and are coupled to the pedestal disposed within the processing chamber through the pedestal shaft. The reference can be a ring and the lateral adjustment assembly substantially centers the pedestal within the ring. A method of adjusting a pedestal includes leveling the pedestal, translating the pedestal, calibrating the pedestal height to a preheat ring level, and checking the level and location of the pedestal while rotating the pedestal.

Abstract: A passivation species precursor gas is furnished to an inner zone at a first flow rate, while flowing an etchant species precursor gas an annular intermediate zone at a second flow rate. Radial distribution of etch rate is controlled by the ratio of the first and second flow rates. The radial distribution of etch critical dimension bias on the wafer is controlled by flow rate of passivation gas to the wafer edge.

Abstract: A substrate processing system includes an optical measurement assembly coupled to an exterior of a processing chamber that has a portion that is transparent. The processing chamber includes a reference object and a pedestal for supporting a work piece. The optical measurement assembly measures a lateral location, a height and a tilt of the pedestal by transmitting light into the processing chamber through the transparent portion of the processing chamber and detecting a reflected light from both the reference object and the portion of the pedestal after the reflected light leaves the chamber through the transparent portion of the processing chamber. A method of adjusting a pedestal includes analyzing the reflected light and leveling the pedestal, translating the pedestal, calibrating the pedestal height to a preheat ring level, and checking the level and location of the pedestal in response to the analyzed reflected light.