Abstract
The sum peak intensity I 400 (279 + 121 keV) relative to its singles peak intensity I 279 or I 121 has been determined in various environments of 75Se by gamma–gamma summing technique in a single HPGe detector. The change in intensity has been used to determine nuclear quadrupole interaction frequencies and electric field gradient components in different environments, e.g. Se-glycerol, Se-hydrochloric acid (HCl), Se-perchloric acid (HClO 4), Se-blood samples with and without anti-coagulant, Se-alanine and Se-cysteine at different pH values. The electric field gradient is found to vary with chemical complex formation.
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