Patent ID: 7810449

Claim:
A low-inductance RF antenna for use in producing a high-density, ring-shaped plasma with enhanced ionization, for the plasma processing of a semiconductor wafer having a diameter of 300 millimeters or larger, by inductively-coupling energy into alternating high and low density regions in a peripheral ring in a vacuum chamber, the antenna comprising: a central axis: a single conductor that forms a plurality of peripheral conductor windings, including at least one outer peripheral conductor winding, wound around the central axis so that current flowing in the peripheral conductor windings flows around the central axis in the same direction; wherein the plurality of peripheral windings have a planar segmented configuration including an alternating plurality of high and low-efficiency antenna segments, each segment having constant cross-section plural conductors with a repeating modulated pitch structure, arranged in a peripheral ring around the central axis; the high-efficiency segments each including an alternating plurality of closely-spaced parallel conductor lengths of at least two peripheral conductor windings including the at least one outer peripheral conductor winding and at least one other peripheral conductor winding of the plurality of peripheral conductor windings, the close spacing formed by the modulated portion of at least one of the peripheral conductor windings; the low-efficiency segments each including an alternating plurality of relatively widely-spaced parallel conductor lengths of the at least two peripheral conductor windings, the wide spacing formed by the modulated portion of at least one of the peripheral conductor windings; the high-efficiency segments thereby having a concentrated current-carrying configuration that provides relatively closely-spaced parallel paths for said current that produce relatively high-strength magnetic fields externally adjacent and surrounding the at least two peripheral conductor windings, and the low-efficiency segments thereby having a distributed current-carrying configuration that provides relatively widely-spaced parallel paths for said current that produce relatively low-strength magnetic fields externally adjacent and surrounding the at least one outer peripheral conductor winding; whereby RF current in the conductor causes RF energy to inductively couple from the segments of the antenna to the plasma in a peripheral ring of alternating high and low density regions adjacent the outer peripheral conductor winding of the antenna.