Abstract: The invention is embodied in a plasma reactor including a chamber enclosure having a process gas inlet and including a ceiling, a sidewall and a workpiece support pedestal capable of supporting a workpiece at a plasma processing location facing the ceiling, the workpiece processing location and ceiling defining a process region therebetween, the pedestal being spaced from said sidewall to define a pumping annulus therebetween having inner and outer walls, to permit process gas to be evacuated therethrough from the process region. The invention further includes a pair of opposing plasma confinement magnetic poles arranged adjacent the annulus within one of the inner and outer walls of the annulus, the opposing magnetic poles being axially displaced from one another the opposite poles being oriented to provide maximum magnetic flux in a direction across the annulus and a magnetic flux at the processing location less than the magnetic flux across the annulus.

Abstract: The present invention adheres to an optimized coil-domed geometry including a particular dome apex height range relative to the dome base and a particular wafer position range relative to the dome apex.

Abstract: A helicon wave, high density RF plasma reactor having improved plasma and contaminant control. The reactor contains a well defined anode electrode that is heated above a polymer condensation temperature to ensure that deposits of material that would otherwise alter the ground plane characteristics do not form on the anode. The reactor also contains a magnetic bucket for axially confining the plasma in the chamber using a plurality of vertically oriented magnetic strips or horizontally oriented magnetic toroids that circumscribe the chamber. The reactor may utilize a temperature control system to maintain a constant temperature on the surface of the chamber.

Abstract: A process chamber 25 for processing a semiconductor substrate, comprises a support for supporting a substrate 50. A gas distributor 90 provided for introducing process gas into the chamber 25, comprises a gas nozzle for injecting process gas at an inclined angle relative to a plane of the substrate 50, into the chamber 25. Optionally, a gas flow controller 100 controls and pulses the flow of process gas through one or more gas nozzles 140. An exhaust is used to exhaust the process gas from the chamber 25.

Abstract: The invention confines the plasma within the chamber without relying entirely on the chamber walls by introducing a magnetic field across an area or plane through which plasma flow is to be stopped. For example, in order to prevent plasma from leaking or flowing through openings necessarily provided the chamber walls, a magnetic field is established at the entrance of the reactor chamber to such an opening, by placing a pair of opposing magnetic poles across the opening, for example. The magnetic field is sufficiently strong to prevent plasma leaking through the opening.

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: A lift pin 95 for dechucking a substrate 15 held to a chuck 50 by residual electrostatic charge, the substrate being processed in a plasma formed using RF currents, is described. The lift pin 95 comprises (a) a movable elongated member 110 having a tip 115 suitable for lifting and lowering the substrate 15 off the chuck 50, and capable of forming an electrically conductive path between the substrate 15 and a current sink 105. The electrically conductive path comprises at least one of the following: (1) a frequency selective filter capable of filtering RF currents flowing therethrough so that substantially no RF currents flow through the filter; or (2) a resistor having a resistance sufficiently elevated to reduce the voltage caused by RF currents flowing therethrough, by at least about 50%.

Abstract: The present invention reduces those portions of the RF induction field over areas of the wafer experiencing higher etch or deposition rates than those experienced elsewhere on the wafer. Such a controlled reduction of those portions of the RF induction field whose attenuation results in reducing non-uniformity in the etch or deposition rate distribution is obtained by incorporating a plasma uniformity control apparatus into the inductively coupled plasma reactor. The incorporated plasma uniformity control apparatus for controlling the RF induction field produced by the antenna includes one or more conductive bodies which are disposed adjacent to one or more of the radiating elements of the antenna.

Abstract: A method of etching a multicomponent alloy on a substrate, without forming etchant residue on the substrate, is described. In the method, the substrate is placed in a process chamber comprising a plasma generator and plasma electrodes. A process gas comprising a volumetric flow ratio V.sub.r of (i) a chlorine-containing gas capable of ionizing to form dissociated Cl.sup.+ plasma ions and non-dissociated Cl.sub.2.sup.+ plasma ions, and (ii) an inert gas capable of enhancing dissociation of the chlorine-containing gas, in introduced into the process chamber. The process gas is ionized to form plasma ions that energetically impinge on the substrate by (i) applying RF current at a first power level to the plasma generator, and (ii) applying RF current at a second power level to the plasma electrodes. The combination of (i) the volumetric flow ratio V.sub.r of the process gas and (ii) the power ratio P.sub.

Abstract: An inductively coupled RF plasma reactor for processing semiconductor wafer includes a reactor chamber having a side wall and a ceiling, a wafer pedestal for supporting the wafer in the chamber, an RF power source, apparatus for introducing a processing gas into the reactor chamber, and a coil inductor adjacent the reactor chamber connected to the RF power source, the coil inductor including (a) a side section facing a portion of the side wall and including a bottom winding and a top winding, the top winding being at a height corresponding at least approximately to a top height of the ceiling, and (b) a top section extending radially inwardly from the top winding of the side section so as to overlie at least a substantial portion of the ceiling. The present invention adheres to an optimized coil-dome geometry including a particular dome apex height range relative to the dome base and a particular wafer position range relative to the dome apex.

Abstract: A composite diagnostic wafer containing a placebo wafer having the same dimensions as a semiconductor wafer. The placebo wafer has affixed to one surface one or more ion current probes and one or more ion energy analyzers. As such, measurement instrumentation connected to the analyzer(s) and probe(s) determines ion current and ion energy at various locations on the placebo wafer during plasma generation within a semiconductor wafer processing system.