Cross-sections of (p, ɤ) reactions in the production of radioactive technetium

In this work, cross sections 98Mo (p, ɤ) 99Tc reaction as a function with proton energy from (6.0-44) MeV are used according to the available data. In reciprocity theory, it was derived the mathematical formula for98Mo (p, ɤ) 99Tc based on the nuclear characteristics of the nuclei, which include mass, half-life, decay mode, rotation and equality, and great quantity. High probability was deduced to produced 99Tc because it is the most important in use such radioactive pharmaceutical for diagnostic research in nuclear medication. This study shows that the half-life of Mo98 is six hours and releases 140 keV photons when decaying to be 99Tc with half-life of 214,000 yrs. These zero mass particles are preferably used in well-organized recognition by sparkling tools gamma cameras, for example. The statistics collected by the camera were analysed to produce complete, structural, and practical pictures. Imaging of the brain, bones, liver, spleen, kidney, and other organs as well as studies on blood flow include several chemical processes. In other words, the highest potential for technetium anta is when the energy of the proton falling on the target nucleus (molybdenum) is (12, 31, and 42.2) MeV where the values of the cross-sections are (0.1, 0.1014, and 0.1011) barn respectively.