Patent Number: 061309265
Section: claims

1. An apparatus for recirculating charged particles through a single target location, the apparatus comprising: a cyclotron having a center and at least one resonator for acting upon charged particles drawn into the cyclotron at the center thereof so that the charged particles increase in energy and are moved along a path which spirals radially outward from the center of the cyclotron in conjunction with the increase in energy of the charged particles; and  target means positionable in the radially-outward spiral path of the charged particles so that the charged particles strike the target means and wherein the target means permits the charged particles to pass therethrough following an absorption by the target of a small portion of the energy of the charged particles so that upon passing through the target means, the charged particles possess a reduced amount of energy and begin to spiral radially-inwardly of the cyclotron; and  the at least one resonator, the energy absorbed by the target means, and the distance of the target means from the at least one resonator are coordinated so that the at least one resonator restores energy to the reduced-energy charged particles after the particles pass through the target means so that the charged particles of reduced-energy increase in energy and once again begin to spiral radially outward from the center of the cyclotron toward the target means.  a cyclotron having a center and at least one resonator for acting upon charged particles drawn from a source into the center of the cyclotron so that the charged particles increase in energy and are moved along a path which spirals radially outward from the center of the cyclotron in conjunction with the increase in energy of the charged particles; and  target means positionable in the radially-outward spiral path of the charged particles so that the charged particles impinging upon the target means in a first pass to undergo nuclear reactions with the target material, wherein the target means permits the charged particles to pass therethrough following an absorption by the target means of a small portion of the energy of the charged particles so that upon passing through the target means, the charged particles possess a reduced amount of energy and begin to spiral radially-inwardly of the cyclotron; and  the at least one resonator, the energy absorbed by the target means, and the distance of the target means from the at least one resonator are coordinated so that the at least one resonator restores energy to the reduced-energy charged particles after the particles pass through the target means so that the charged particles of reduced-energy increase in energy and once again begin to spiral radially outward from the center of the cyclotron and strike the target means again. 2. The apparatus as defined in claim 1 wherein the cyclotron is adapted to act upon charged particles which are drawn into the center of the cyclotron in a chain of pulses or in a substantially continuous manner so that the target means is struck by charged particles in a chain of pulses or substantially continuously. 3. The apparatus as defined in claim 2 wherein the apparatus is adapted to continually recirculate charged particles through the target means so that a closed ring of a large number of charged particles accumulate in the cyclotron. 4. The apparatus as defined in claim 1 wherein the charged particles which strike the target means comprise a beam of cross-sectional area and the target means has a cross-sectional area which is larger than the cross-sectional area of the charged particle beam, and the apparatus includes means for moving the target means relative to the charged particle beam so that different regions of the target means are continually moved into and out of registry with the charged particle beam. 5. The apparatus as defined in claim 4 wherein the target means includes a foil portion and is mounted adjacent the cyclotron for rotation relative thereto about an axis so that the foil portion is maintained in registry with the charged particle beam, and the means for moving the target means includes means for rotating the target means about the rotation axis so that while the foil portion is maintained in registry with the charged particle beam, different regions of the foil portion are moved into and out of registry with the charged particle beam. 6. The apparatus as defined in claim 5 wherein the apparatus further includes a rotatable shaft upon which the target means is mounted for rotation about the rotation axis and means for cooling the shaft as the shaft is rotated about the rotation axis. 7. The apparatus as defined in claim 6 wherein the shaft defines an interior passageway along its length, and the cooling means includes means for routing a liquid coolant through the interior passageway. 8. The apparatus as defined in claim 1 wherein the target means includes at least two targets which are spaced from one another along the radially-outward spiral path of the charged particles. 9. The apparatus as defined in claim 8 wherein the charged particles which strike the target means comprise a beam, and the apparatus further includes means for moving the target means relative to the charged particle beam so that different regions of the target means are continually moved into and out of registry with the charged particle beam, and the means for moving includes a rotatable shaft upon which the at least two targets are mounted and means for rotating the shaft about an axis so that different regions of the at least two targets are continually moved into and out of registry with the charged particle beam. 10. The apparatus as defined in claim 1 wherein the target means is adapted to reduce the energy of the charged particles which strike the target means by no more than about ten percent of the total energy of the charged particles. 11. An apparatus for producing an increased number of nuclear reactions with a target nuclide comprising: 12. The apparatus as defined in claim 11 wherein the cyclotron is adapted to act upon charged particles which are drawn into the center of the cyclotron in a chain of pulses or in a substantially continuous manner so that charged particles undergo nuclear reactions with the target means during a first pass of the charged particles in a pulsed or substantially continuous manner and charged particles undergo nuclear reactions with the target means during a second pass of the charged particles in a pulsed or substantially continuous manner. 13. The apparatus as defined in claim 11 wherein the charged particles which strike the target means comprise a beam of cross-sectional area and the target means has a cross-sectional area which is larger than the cross-sectional area of the charged particle beam, and the apparatus includes means for moving the target means relative to the charged particle beam so that different regions of the target means are continually moved into and out of registry with the charged particle beam. 14. The apparatus as defined in claim 13 wherein the target means includes a foil portion and is mounted adjacent the cyclotron for rotation relative thereto about an axis so the foil portion is maintained in registry with the charged particle beam, and the means for moving the target means includes means for rotating the target means about the rotation axis so that while the foil portion is maintained in registry with the charged particle beam, different regions of the foil portion are moved into and out of registry with the charged particle beam. 15. The apparatus as defined in claim 14 wherein the apparatus further includes a rotatable shaft upon which the target means is mounted for rotation about the rotation axis and means for cooling the shaft as the shaft is rotated about the rotation axis. 16. The apparatus as defined in claim 15 wherein the shaft defines an interior passageway along its length, and the cooling means includes means for routing a liquid coolant through the interior passageway. 17. The apparatus as defined in claim 11 wherein the target means includes at least two targets which are spaced from one another along the radially-outward spiral path of the charged particles. 18. The apparatus as defined in claim 17 wherein the charged particles which strike the target means comprise a beam, and the apparatus further includes means for moving the target means relative to the charged particle beam so that different regions of the target means are continually moved into and out of registry with the charged particle beam, and the means for moving includes a rotatable shaft upon which the pair of targets are mounted and means for rotating the shaft about an axis so that different regions of the pair of targets are continually moved into and out of registry with the charged particle beam. 19. The apparatus as defined in claim 11 wherein the target means is adapted to reduce the energy of the charged particles which strike the target means by no more than about ten percent of the total energy of the charged particles. 20. The apparatus as defined in claim 11 wherein the charged particles drawn into the center of the cyclotron for being acted upon by the cyclotron are protons, and the target means includes beryllium. 21. The apparatus as defined in claim 11 wherein the charged particles drawn into the center of the cyclotron for being acted upon by the cyclotron are protons, and the target means includes rhodium 103. 22. The apparatus as defined in claim 11 wherein the cyclotron includes four pairs of sectors and four pairs of valleys wherein the return path for closing the magnetic circuit are located opposite each other and a vacuum tank having walls within which the cyclotron is mounted. 23. A cyclotron according to claim 22 wherein the angular extents of all sectors is 45.degree..