Thin-Target Excitation Functions and Optimised Thick-Target Yields for natMo(p,xn)94g,95m,95g,96(m+g)Tc Nuclear Reactions Induced by Protons from Threshold up to 45 MeV. Radiochemical Separation and Quality Control

This work describes the method adopted in our laboratories, to produce 94gTc, 95gTc, 95mTc and 96gTc radionuclides via proton-cyclotron irradiation on molybdenum targets of natural isotopic composition. Experimental thin-target excitation functions and 'effective' cross-sections for direct natMo(p,xn)ATc [with A=94,95,95,96] nuclear reactions, with incident proton energy in the range from threshold up to 44 MeV, are reported. Some definition of the equations used and nuclear data traceability are reported. Thick-target yield values, have been calculated and optimized, by numerical fitting and integration of the measured excitation functions. These values allow the optimization of the production yield of one radionuclide, minimizing at the same time the yield of the others. A novel radiochemical separation on NCA technetium radionuclides from both molybdenum target and niobium, zirconium and yttrium radioactive by-products is reported. Quality control tests of the radiotracer produced, were developed for the applications envisaged in environmental metallo-biochemical toxicology.