Abstract: A linear actuator comprised of an actuator body having a first portion and a second portion, each arranged along a longitudinal axis of the actuator body. A vacuum bellows is concentrically located in the first portion and is configured to seal a vacuum environment from the second portion. A linear motion shaft is concentrically located substantially within the actuator body and is configured to move in a linear direction along the longitudinal axis. An electrically conductive portion of the shaft is concentrically located substantially within the vacuum bellows and electrically insulated therefrom and is configured to receive and conduct a signal. A lift force generating portion of the shaft is concentrically located substantially within the second portion. An electrical contact pad is electrically coupled to the conductive portion of the shaft and is configured to couple the signal to another surface upon activation of the shaft.

Abstract: A plasma processing system for generating plasma to process at least a wafer. The plasma processing system includes a coil for conducting a current for sustaining at least a portion of the plasma. The plasma processing system also includes a sensor coupled with the coil for measuring a magnitude of a supplied current to provide a magnitude measurement without measuring any phase angle of the supplied current. The supplied current is the current or a total current that is used for providing a plurality of currents (e.g., including the current). The plasma processing system also includes a controller coupled with the sensor for generating a command using the magnitude measurement and/or information derived using the magnitude measurement, without using information related to phase angle measurement, and for providing the command for controlling the magnitude of the supplied current and/or a magnitude of the total current.

Abstract: A linear actuator comprised of an actuator body having a first portion and a second portion, each arranged along a longitudinal axis of the actuator body. A vacuum bellows is concentrically located in the first portion and is configured to seal a vacuum environment from the second portion. A linear motion shaft is concentrically located substantially within the actuator body and is configured to move in a linear direction along the longitudinal axis. An electrically conductive portion of the shaft is concentrically located substantially within the vacuum bellows and electrically insulated therefrom and is configured to receive and conduct a signal. A lift force generating portion of the shaft is concentrically located substantially within the second portion. An electrical contact pad is electrically coupled to the conductive portion of the shaft and is configured to couple the signal to another surface upon activation of the shaft.

Abstract: The present invention provides a process chamber and voltage distributive electrode (VDE) which distributes capacitive coupling between an inductive source and a plasma in a process chamber. The VDE is preferably slotted defining energy opaque and energy transparent portions which enable inductive coupling into the chamber while distributing capacitive coupling uniformly over the dielectric window.

Abstract: The present invention provides a process chamber and voltage distributive electrode (VDE) which distributes capacitive coupling between an inductive source and a plasma in a process chamber. The VDE is preferably slotted defining energy opaque and energy transparent portions which enable inductive coupling into the chamber while distributing capacitive coupling uniformly over the dielectric window.

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

Abstract: The present invention provides an apparatus and method, for plasma assisted processing of a workpiece, which provides for separate control of species density within a processing plasma. The present invention has a processing chamber and at least one collateral chamber. The collateral chamber is capable of generating a collateral plasma and delivering it to the processing chamber. To control the densities of the particle species within the processing chamber the present invention may have: a filter interposed between the collateral chamber and the processing chamber, primary chamber source power, several collateral chambers providing separate inputs to the processing chamber, or combinations thereof. Collateral plasma may be: filtered, combined with primary chamber generated plasma, combined with another collateral plasma, or combinations thereof to separately control the densities of the species comprising the processing plasma.

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: The invention is embodied in a coil antenna for radiating RF power supplied by an RF source into a vacuum chamber of an inductively coupled plasma reactor which processes a semiconductor wafer in the vacuum chamber, the reactor having a gas supply inlet for supplying processing gases into the vacuum chamber, the coil antenna including plural concentric spiral conductive windings, each of the windings having an interior end near an apex of a spiral of the winding and an outer end at a periphery of the spiral of the winding, and a common terminal connected to the interior ends of the plural concentric spiral windings, the RF power source being connected across the terminal and the outer end of each one of the windings. In embodiment, the inner ends of the concentric spiral windings are connected radially outwardly of a common conductor rather than inwardly to an apex terminal. In another embodiment, the concentric spiral windings are each powered at a point intermediate the radially inner and outer ends.

Abstract: The amount of capacitive coupling of RF power to a semiconductor substrate or wafer in an inductively coupled RF plasma reactor is quantitatively measured by separating the RF current from the plasma through the wafer pedestal into the Fourier components including the fundamental frequency (F) of the RF power and the second harmonic (2F) of the frequency of the RF power and then measuring the current or power of the fundamental component. As an additional feature, the amount of inductive coupling is measured by measuring the current or power of the second harmonic.