Patent Number: 059498366
Section: claims

1. An apparatus for sequentially producing a concentration of at least one product isotope by an isotopic conversion reaction, comprising: a) a beam source for generating a photon beam along a beam axis, and  b) a target assembly containing increments of target material displaced in-series along the beam axis, said increments including a targeted isotope which converts to the product isotope with irradiation by the photon beam, an increment of the target material proximal to the beam source being removable from the target assembly with product isotope while leaving target material which had been irradiated through the removed increment for further irradiation by the photon beam.  f is the isotopic fraction of molybdenum-100 in the molybdenum-100 target, and  R is the photon path length per unit volume per unit energy, weighted by the photoneutron cross-section integrated over energy.  a) an electron accelerator, and  b) a convertor for converting an electron beam into the photon beam.  a) directing a photon beam along a beam axis from a photon beam source through target material increments displaced in-series along the axis of the photon beam, a targeted isotope contained within the increments being exposed to said photon beam to form the product isotope within a target material increment proximal to said photon beam source and an increment behind the proximal increment,  b) removing a first target material increment proximal to the photon beam source from the photon beam, and  c) advancing the target material increments in-series toward the photon beam source.  a) The target is molybdenum, and  b) f.multidot.R.gtoreq.2.2.times.10.sup.-8 sec.sup.-1,  where 2. An apparatus of claim 1 wherein the intensity of the photon beam is at least 50 microamps/cm.sup.2. 3. An apparatus of claim 1 wherein EQU f.multidot.R.gtoreq.2.2.times.10.sup.-8 sec.sup.-1 4. An apparatus of claim 3 further comprising a means for moving target material increments, in series, toward the photon beam source as the proximal target increment, containing product isotope, is removed from the target assembly. 5. An apparatus of claim 4 further comprising a means for inserting an additional target material increment into the target assembly distal to the photon beam generating means. 6. An apparatus of claim 3 wherein the target material is in a solid mass. 7. An apparatus of claim 3 wherein the target material is in a form selected from the group consisting of a liquid, a slurry or particles. 8. An apparatus of claim 7 wherein each increment of target material is separately contained within a container. 9. An apparatus of claim 3 wherein the beam source includes: 10. An apparatus of claim 9 wherein the convertor includes as least two separate convertor plates, disposed within the convertor, wherein the convertor plates have different thicknesses. 11. An apparatus of claim 10 further comprising a means for cooling the convertor, wherein said cooling means includes coolant channels disposed between adjacent convertor plates. 12. An apparatus of claim 2 wherein the photon beam has photons of energy of at least 8 MeV. 13. A method for sequentially producing a concentration of at least one product isotope by an isotopic conversion reaction, comprising the steps of: 14. A method of claim 13 wherein: 15. A method of claim 13 wherein the intensity of the photon beam is at least 50 microamps/cm.sup.2. 16. A method of claim 15 wherein the photon beam has photons or energy of at least 8 MeV.