Patent Number: 052895092
Section: claims

1. A comb-line antenna comprising: a plurality of parallel current straps supported in a plane above a conductive surface, each current strap having a specified length l and width W, each strap having a first end that is substantially aligned with the first ends of the other straps, each strap being separated a distance S from an adjacent strap, whereby an array of current straps is formed having approximate dimensions of l by N(W+S), where N is the number of current straps in the array;  input means for applying rf input power to a first current strap of said plurality of parallel current straps, said first current strap being located on one edge of said current strap array, a portion of said rf input power applied to said first current strap being inductively coupled to a second current strap adjacent the first current strap, and a portion of the rf input power coupled to the second current strap being inductively coupled to a third current strap adjacent the second current strap, and so on, with the rf input power being inductively coupled from one current strap to an adjacent current strap;  a multiplicity of U-shaped wickets connected to said conductive surface that enclose, but do not touch, each of said current straps, said multiplicity of U-shaped wickets functioning as a Faraday shield;  the current straps in said current strap array being configured to launch a portion of the input rf power away from said conductive surface and said current straps into a medium having a frontal surface that is more or less parallel to said current strap array, whereby said current strap array functions as an antenna that launches rf power into the medium.  (a) supporting a multiplicity of parallel current straps an equal distance apart, and positioning said equally-spaced, parallel current straps so as to front said plasma;  (b) applying rf input power to a first of said plurality of parallel current straps, said rf input power being inductively coupled from one current strap to an adjacent current strap, whereby a portion of the rf input power applied to said first current strap is inductively coupled to a second current strap adjacent said first current strap, and a portion of the rf power coupled to the second current strap is inductively coupled to a third current strap adjacent said second current strap, and so on, with the rf input power being inductively coupled from one current strap to an adjacent current strap so that each of said current straps receives some rf power, and with some of the rf power present at each current strap being launched from the respective current strap as a magnetosonic wave into said plasma; and  (c) shielding said plasma from electrostatic fields present at said current straps. 2. The comb-line antenna as set forth in claim 1 wherein said medium comprises a plasma mass, and wherein said launched rf power assumes the form of a magnetosonic wave within said plasma mass. 3. The comb-line antenna as set forth in claim 2 wherein said current strap array is mounted within a conductive, open box having cross-sectional dimensions that are slightly larger than l by N(W+S), said box having an open top that faces the plasma mass, said conductive surface comprising a bottom surface of said box. 4. The comb-line antenna as set forth in claim 3 wherein said box is attached to a wall of a plasma-confining structure, said current strap array being exposed to the interior of said plasma-confining structure through the open top of said box, whereby rf power is launched into the interior of said plasma-confining structure from said comb-line antenna. 5. The comb-line antenna as set forth in claim 4 wherein said plasma-confining structure comprises a tokamak. 6. The comb-line antenna as set forth in claim 1 further including extraction means for extracting rf output power from a last current strap of said plurality of parallel current straps, said last current strap being positioned on an edge of said current strap array that is opposite said first current strap where rf input power is applied to said current strap array, whereby any of the rf input power that is applied to said first current strap and that is coupled through said current straps to said last current strap without being launched into said medium may be extracted from said current strap array. 7. The comb-line antenna as set forth in claim 6 further including means for recirculating the rf power extracted from said extraction means back to the input means. 8. The comb-line antenna as set forth in claim 6 wherein said rf input power has a frequency in the range of 100 to 200 MHz. 9. The comb-line antenna as set forth in claim 8 wherein the number N of current straps within said array is at least 10. 10. The comb-line antenna as set forth in claim 9 wherein the length l of said current straps comprises approximately 15 to 30 cm, the separation distance S between adjacent current straps comprises approximately 2.5 to 5.0 cm, and the width W of said current straps comprises approximately 2.5 to 5.0 cm. 11. The comb-line antenna as set forth in claim 9 wherein the current straps are positioned a standoff distance d.sub.1 from said conductive surface, where d.sub.1 comprises approximately 2.5 to 5.0 cm. 12. A comb-line antenna comprising a plurality of parallel current straps, each current strap being enclosed within a multiplicity of wickets, each of said wickets being grounded to a conductive ground plane, said conductive ground plane being a prescribed stand-off distance from said plurality of parallel current straps, and input power means for applying rf input power to a first one of said plurality of parallel current straps, each of said current straps being spaced apart from an adjacent current strap a specified distance so that some of the rf input power applied to said power input means is inductively coupled from one current strap to an adjacent current strap, with each of said current straps receiving some rf power, where the rf power at each current strap produces an electromagnetic field. 13. The comb-line antenna as set forth in claim 12 further including output power means for extracting output power from a last one of said plurality of parallel current straps, whereby any rf power remaining at the last current strap may be extracted and recirculated back to the input power means. 14. The comb-line antenna as set forth in claim 13 further including support means for supporting said plurality of parallel current straps adjacent a plasma mass, with the electromagnetic wave launched from said plurality of current straps comprising a magnetosonic wave that propagates within said plasma, and with said multiplicity of wickets functioning as a Faraday shield that shields said plasma mass from electrostatic fields that are present in the vicinity of said current straps. 15. The comb-line antenna as set forth in claim 14 wherein said plasma mass is confined within a tokamak, and wherein said support means is mounted on the inside of an exterior wall of a vacuum vessel within said tokamak so that said plurality of parallel current straps fronts said plasma mass. 16. A method of launching magnetosonic waves into a plasma comprising: 17. The method as set forth in claim 16 wherein step (c) comprises enclosing each of said multiplicity of parallel current straps within a multiplicity of conductive wickets, each of said wickets having an appropriate shape that encloses, but does not touch, the respective current strap about which it is placed, each of said wickets further being grounded to a ground plane that is a prescribed stand-off distance from said parallel current straps. 18. The method as set forth in claim 17 further including extracting rf power from a last of said multiplicity of current strips and recirculating said extracted rf power back to said first current strip.