Abstract: A capacitively coupled RF plasma reactor allows treatment of large workpiece surfaces with an accurate control of ion bombardment onto the respective electrode surfaces and thus an adjacent workpiece, be it to a desired low or to a desired high level. The reactor includes a first and a second electrode arrangement mutually spaced and confining a plasma reaction volume, at lest one of the electrode arrangements comprising electrically mutually isolated sub-electrodes, a first group of the sub-electrodes being commonly connected to a first electric input, and a second group of the sub-electrodes being commonly connected to a second electric input. The reactor thus substitutes at least one of the two customarily used reactor electrodes by an array of sub-electrodes which, by way of their respective first and second electric inputs, may be independently and thus differently electrically operated, usually but not exclusively with RF voltages.

Abstract: A method for improving the edge-to-center photoresist ash rate uniformity in lower temperature (typically, but not limited to <100° C.) processing of integrated circuits and micro-electro-mechanical devices. A varying gap distance 32 from the edge-to-center of the upper and lower grid plates, 30 and 31, of a plasma ashing machine is provided to allow additional flow of plasma gases into the normally semi-stagnated area near the center of the wafer being processed. This improvement overcomes the problem of slower photoresist removal in the center of the wafer. Three configurations of the invention is described, including both stepwise and continuous variation of the grid plate gap spacing and optionally, the variation of the size of grid plate holes in a parallel grid plate assembly.

Abstract: A power segmented electrode useful as part of an upper electrode and/or substrate support for supporting a substrate such as a semiconductor wafer in a plasma reaction chamber such as a single wafer etcher. The power segmented electrode includes a plurality of electrodes which are supplied radiofrequency power in a manner which provides uniform processing of the substrate. The power to the electrodes can be supplied through a circuit incorporating interelectrode gap capacitance, one or more variable capacitors, one or more current sensors, a power splitter, one or more DC biasing sources, and/or power amplifier.

Abstract: An inductive plasma torch operating at atmospheric pressure is used for wafer or glass substrate processing. Said torch employs a linear type of plasma confinement. This linear torch is particularly suitable for photoresist etching and processes in which it has the advantages of high chemical isotropic etch rate and low plasma damage.

Abstract: In plasma processing, a bias voltage is provided from a power supply through a DC blocking capacitor to a platform on which a substrate to be treated is supported within a plasma reactor. The periodic bias voltage applied to the DC blocking capacitor has a waveform comprised of a voltage pulse peak followed by a ramp down of voltage from a first level lower than the pulse peak to a second lower level, the period of the bias waveform and the ramp down of voltage in each cycle selected to compensate for and substantially cancel the effect of ion accumulation on the substrate so as to maintain a substantially constant DC self-bias voltage on the substrate between the voltage pulse peaks. The waveform may include a single voltage pulse peak followed by a ramp down in voltage during each cycle of the bias voltage such that the ion energy distribution function at the substrate has a single narrow peak centered at a selected ion energy.

Abstract: Many boards 7 to be processed are disposed within a metal chamber 1 in an isolated state, and many ground electrode plates 9 are disposed near by both surfaces of the boards 7 so as to be at the same potential as the chamber 1. While a microwave generated by a magnetron 3 from an upper portion of the chamber 1 is applied in the chamber 1, both surfaces of the boards 7 are processed at a time with plasma by using glow discharges produced between the boards 7 and plates 9 due to a difference in high-frequency potential between the boards 7 and plates 9 under presence of reaction gas.

Abstract: The present invention provides a microwave plasma processing method capable of processing an object layer having a minute configuration and a laminated object layer without producing any etch residue and of increasing the ratio of the etching selectivity of the object layer to those of a mask and the underlying layer when etching a laminated film. The intensity of a magnetic field created by solenoids surrounding a plasma processing chamber is varied to vary the distance between the object surface of a workpiece and a flat resonance region for etching an object layer and for overetching the object layer to vary the position of a plasma produced by the interaction of an electric field created by a microwave and the magnetic field created by the solenoids.

Abstract: In a semiconductor device manufacturing apparatus that processing a substrate by applying a voltage to a gas to create a plasma, positively charged particles are trapped or guided at the instant that the cathode voltage is stopped, by an electrode to which is imparted a negative voltage, so as to prevent particles reaching the substrate.

Abstract: A low inductance large area coil (LILAC) is provided as a source for generating a large area plasma. The LILAC comprises at least two windings which, when connected to an RF source via impedance matching circuitry, produce a circulating flow of electrons to cause a magnetic field in the plasma. Because the LILAC employs multiple windings, few turns of winding are required to obtain a large area coil, so that the inductance of the LILAC is low. The low inductance of the LILAC ensures that the self-resonating frequency of the LILAC is kept at a level far above the RF driving frequency, allowing a broad frequency range for impedance matching. Thus, there is no difficulty in impedance matching, and power transfer can be maximized, permitting efficient generation of a large area plasma.

Abstract: A plasma processing apparatus and method of processing a specimen by a plasma. The method and apparatus includes independently controlling a density distribution of the plasma.