Abstract: A plasma reactor for processing a semiconductor wafer includes a side wall and an overhead ceiling defining a chamber, a workpiece support cathode within the chamber having a working surface facing the ceiling for supporting a semiconductor workpiece, process gas inlets for introducing a process gas into the chamber and an RF bias power generator having a bias power frequency. There is a bias power feed point at the working surface and an RF conductor is connected between the RF bias power generator and the bias power feed point at the working surface. A dielectric sleeve surrounds a portion of the RF conductor, the sleeve having an axial length along the RF conductor, a dielectric constant and an axial location along the RF conductor, the length, dielectric constant and location of the sleeve being such that the sleeve provides a reactance that enhances plasma ion density uniformity over the working surface.

Abstract: Various embodiments of the present invention are generally directed to a plasma etch reactor. In one embodiment, the reactor includes a chamber, a pedestal disposed within the chamber, a gas distribution plate disposed within the chamber overlying the pedestal, a ring surrounding the pedestal, and an upper electrically conductive mesh layer and a lower electrically conductive mesh layer disposed within the pedestal. The ring has a raised portion. The upper electrically conductive mesh layer is disposed substantially above the lower electrically conductive mesh layer and is substantially the same size as a substrate configured to be disposed on the pedestal. The lower electrically conductive mesh layer is substantially annular in shape and is disposed around the periphery of the upper electrically conductive mesh layer and below the raised portion of the ring.

Abstract: The invention is embodied in a plasma reactor for processing a semiconductor wafer, the reactor having a gas distribution plate including a front plate in the chamber and a back plate on an external side of the front plate, the gas distribution plate comprising a gas manifold adjacent the back plate, the back and front plates bonded together and forming an assembly. The assembly includes an array of holes through the front plate and communicating with the chamber, at least one gas flow-controlling orifice through the back plate and communicating between the manifold and at least one of the holes, the orifice having a diameter that determines gas flow rate to the at least one hole. In addition, an array of pucks is at least generally congruent with the array of holes and disposed within respective ones of the holes to define annular gas passages for gas flow through the front plate into the chamber, each of the annular gas passages being non-aligned with the orifice.

Abstract: An RF power applicator of the reactor includes inner and outer conductive radial spokes. The set of inner conductive spokes extends radially outwardly from and is electrically connected to the conductive post toward the conductive side wall. The set of outer conductive spokes extends radially inwardly toward the conductive post from and is electrically connected to the conductive side wall. In this way, the inner and outer sets of conductive spokes are electrically connected together, the combination of the inner and outer set of spokes with the conductive enclosure having a fundamental resonant frequency inversely proportional to the height of the conductive enclosure and the lengths of the inner and outer set of conductive spokes. An RF source power generator is coupled across the RF power applicator and has an RF frequency corresponding to the fundamental resonant frequency.

Abstract: An inductive antenna of a plasma reactor for processing a semiconductor wafer is connected to a radio frequency (RF) power source, and consists of a conductor arranged in successive loops that wind in opposing directions, adjacent pairs of the successive loops having facing portions in which current flow is parallel, the facing portions being sufficiently close to at least nearly share a common current path, whereby to form transitions across the facing portions between opposing magnetic polarizations.

Abstract: The invention is embodied in a plasma reactor for processing a semiconductor wafer, the reactor having a gas distribution plate including a front plate in the chamber and a back plate on an external side of the front plate, the gas distribution plate comprising a gas manifold adjacent the back plate, the back and front plates bonded together and forming an assembly. The assembly includes an array of holes through the front plate and communicating with the chamber, at least one gas flow-controlling orifice through the back plate and communicating between the manifold and at least one of the holes, the orifice having a diameter that determines gas flow rate to the at least one hole. In addition, an array of pucks is at least generally congruent with the array of holes and disposed within respective ones of the holes to define annular gas passages for gas flow through the front plate into the chamber, each of the annular gas passages being non-aligned with the orifice.

Abstract: A plasma reactor for processing a workpiece includes a reactor enclosure defining a processing chamber, a base within the chamber for supporting the workpiece during processing thereof, a semiconductor window electrode overlying the base, a gas inlet system for admitting a plasma precursor gas into the chamber, an electrical terminal coupled to the semiconductor window electrode, an inductive antenna adjacent one side of the semiconductor window electrode opposite the base for coupling power into the interior of said chamber through the semiconductor window electrode.

Abstract: A plasma reactor for processing a semiconductor workpiece, includes reactor chamber having a chamber wall and containing a workpiece support for holding the semiconductor support, the electrode comprising a portion of the chamber wall, an RF power generator for supplying power at a frequency of the generator to the overhead electrode and capable of maintaining a plasma within the chamber at a desired plasma ion density level. The overhead electrode has a capacitance such that the overhead electrode and the plasma formed in the chamber at the desired plasma ion density resonate together at an electrode-plasma resonant frequency, the frequency of the generator being at least near the electrode-plasma resonant frequency. The reactor further includes a set of MERIE magnets surrounding the plasma process area overlying the wafer surface that produce a slowly circulating magnetic field which stirs the plasma to improve plasma ion density distribution uniformity.

Abstract: The invention is embodied in a plasma reactor for processing a semiconductor wafer, the reactor having a gas distribution plate including a front plate in the chamber and a back plate on an external side of the front plate, the gas distribution plate comprising a gas manifold adjacent the back plate, the back and front plates bonded together and forming an assembly. The assembly includes an array of holes through the front plate and communicating with the chamber, at least one gas flow-controlling orifice through the back plate and communicating between the manifold and at least one of the holes, the orifice having a diameter that determines gas flow rate to the at least one hole. In addition, an array of pucks is at least generally congruent with the array of holes and disposed within respective ones of the holes to define annular gas passages for gas flow through the front plate into the chamber, each of the annular gas passages being non-aligned with the orifice.

Abstract: An inductive antenna of a plasma reactor for processing a semiconductor wafer is connected to a radio frequency (RF) power source, and consists of a conductor arranged in successive loops that wind in opposing directions, adjacent pairs of the successive loops having facing portions in which current flow is parallel, the facing portions being sufficiently close to at least nearly share a common current path, whereby to form transitions across the facing portions between opposing magnetic polarizations.

Abstract: A plasma reactor for processing a semiconductor workpiece, includes a reactor chamber having a chamber ceiling and a chamber side wall and a workpiece support pedestal within the chamber, a process gas conduit and gas distribution orifices facing the interior of the chamber and coupled to the process gas conduit, a conductive enclosure outside of the chamber and overlying the ceiling and having a conductive side wall with a bottom edge supported on the chamber ceiling and a conductive ceiling supported on a top edge of the conductive side wall, and a conductive post extending parallel with the conductive side wall from a center portion of the conductive ceiling toward the chamber ceiling. An RF power applicator of the reactor includes inner and outer conductive radial spokes. The set of inner conductive spokes extends radially outwardly from and is electrically connected to the conductive post toward the conductive side wall.

Abstract: The invention is embodied in a plasma reactor for processing a semiconductor wafer, the reactor having a gas distribution plate including a front plate in the chamber and a back plate on an external side of the front plate, the gas distribution plate comprising a gas manifold adjacent the back plate, the back and front plates bonded together and forming an assembly. The assembly includes an array of holes through the front plate and communicating with the chamber, at least one gas flow-controlling orifice through the back plate and communicating between the manifold and at least one of the holes, the orifice having a diameter that determines gas flow rate to the at least one hole. In addition, an array of pucks is at least generally congruent with the array of holes and disposed within respective ones of the holes to define annular gas passages for gas flow through the front plate into the chamber, each of the annular gas passages being non-aligned with the orifice.

Abstract: Apparatus for gas distribution in a semiconductor wafer processing chamber 200 having a roof 228. The roof 228 has a top surface 608 and a bottom surface 312. A recess 314 is disposed within the bottom surface 312 of the roof 228. A gas distribution plate 316 is disposed within the recess 314 and a material layer coating 320 is disposed upon the bottom surfaces 312/500 of the roof 228 and the gas distribution plate 316. The material layer coating 320 and the gas distribution plate 316 each have a plurality of apertures 322/404. The apertures 404 of the gas distribution plate 316 coincide with the apertures 322 in the material layer coating 320. The material layer coating 320 is formed from silicon carbide and most preferably is deposited by chemical vapor deposition (CVD). Both the roof 228 and gas distribution plate 316 are fabricated from silicon carbide.

Abstract: There is disclosed a plasma reactor for processing a semiconductor workpiece such as a wafer, including a chamber having an overhead ceiling with a three-dimensional shape such as a hemisphere or dome. The reactor further includes an inductive antenna over the ceiling which may be conformal or nonconformal in shape with the ceiling. The ceiling may be a semiconductor material so that it can function as both a window for the inductive field of the antenna as well as an electrode which can be grounded, or to which RF power may be applied or which may be allowed to float electrically. The reactor includes various features which allow the radial distribution of the plasma ion density across the wafer surface to be adjusted to an optimum distribution for processing uniformity across the wafer surface.

Abstract: The invention is embodied in a plasma reactor including a plasma reactor chamber and a workpiece support for holding a workpiece near a support plane inside the chamber during processing, the chamber having a reactor enclosure portion facing the support, a cold body overlying the reactor enclosure portion, a plasma source power applicator between the reactor enclosure portion and the cold body and a thermally conductor between and in contact with the cold body and the reactor enclosure. The thermal conductor and the cold sink define a cold sink interface therebetween, the reactor preferably further including a thermally conductive substance within the cold sink interface for reducing the thermal resistance across the cold sink interface. The thermally conductive substance can be a thermally conductive gas filling the cold body interface. Alternatively, the thermally conductive substance can be a thermally conductive solid material.

Abstract: In accordance with a first aspect of the invention, a plasma reactor having a chamber for containing a plasma and a passageway communicating with the chamber is enhanced with a first removable plasma confinement magnet module placed adjacent the passageway including a first module housing and a first plasma confinement magnet inside the housing. It may further include a second removable plasma confinement magnet module placed adjacent the passageway including a second module housing, and a second plasma confinement magnet. Preferably, the first and second modules are located on opposite sides of the passageway. Moreover, the first and second plasma confinement magnets have magnetic orientations which tend to oppose plasma transport or leakage through the passageway. Preferably, the module housing includes a relatively non-magnetic thermal conductor such as aluminum and is in thermal contact with said chamber body.

Abstract: The invention is embodied in an inductively coupled RF plasma reactor including a reactor chamber enclosure defining a plasma reactor chamber and a support for holding a workpiece inside the chamber, a non-planar inductive antenna adjacent the reactor chamber enclosure, the non-planar inductive antenna including inductive elements spatially distributed in a non-planar relative to a plane of the workpiece to compensate for a null in an RF inductive pattern of the antenna, and a plasma source RF power supply coupled to the non-planar inductive antenna. The planar inductive antenna may be symmetrical or non-symmetrical, although it preferably includes a solenoid winding such as a vertical stack of conductive windings. In a preferred embodiment, the windings are at a minimum radial distance from the axis of symmetry while in an alternative embodiment the windings are at a radial distance from the axis of symmetry which is a substantial fraction of a radius of the chamber.

Abstract: A general method of the invention is to provide a polymer-hardening precursor piece (such as silicon, carbon, silicon carbide or silicon nitride, but preferably silicon) within the reactor chamber during an etch process with a fluoro-carbon or fluoro-hydrocarbon gas, and to heat the polymer-hardening precursor piece above the polymerization temperature sufficiently to achieve a desired increase in oxide-to-silicon etch selectivity. Generally, this polymer-hardening precursor or silicon piece may be an integral part of the reactor chamber walls and/or ceiling or a separate, expendable and quickly removable piece, and the heating/cooling apparatus may be of any suitable type including apparatus which conductively or remotely heats the silicon piece.

Abstract: A plasma reactor for processing a semiconductor workpiece, includes a reactor chamber having a chamber wall and containing a workpiece support for holding the semiconductor workpiece, an overhead electrode overlying said workpiece support, the electrode comprising a portion of said chamber wall, an RF power generator for supplying power at a frequency of said generator to said overhead electrode and capable of maintaining a plasma within said chamber at a desired plasma ion density level. The overhead electrode has a capacitance such that said overhead electrode and the plasma formed in said chamber at said desired plasma ion density resonate together at an electrode-plasma resonant frequency, said frequency of said generator being at least near said electrode-plasma resonant frequency.

Abstract: In a plasma reactor including a reactor chamber, a workpiece support for holding a workpiece inside the chamber during processing and an inductive antenna, a window electrode proximal a wall of the chamber, the antenna and wall being positioned adjacently, the window electrode being operable as (a) a capacitive electrode accepting RF power to capacitively coupled plasma source power into the chamber, and (b) a window electrode passing RF power therethrough from said antenna into the chamber to inductively couple plasma source power into the chamber.