A spin-spin relaxation rate investigation of the gelatin ferrous sulphate NMR dosimeter

Abstract

Spin-spin NMR relaxation rate in the ferrous sulphate gelatin dosimeter has been studied in terms of pH, gelatin concentration, the addition of benzoic acid, and sample size. It is demonstrated that R₂ is more sensitive to changes in Fe³⁺ ion concentration than R₁ when measuring at frequencies of 64 and 100 MHz. pH has an important effect on dose response curves, and oxygen depletion occurs significantly more rapidly in FeSO₄ gelatin than in the liquid FeSO₄, resulting in a saturation dose of approximately 80 Gy at depths greater than approximately 3 mm in phantom. The concentration of gelatin can be increased to 12% by weight, and the dosimeter will continue to exhibit a linear dose response. Sensitivity is maintained at higher gel concentrations by pH compensation. Addition of low-concentration benzoic acid to the system does not alter the dose response of the gelatin FeSO₄ system. Finally, spontaneous oxidation of Fe²⁺ ions does not significantly alter the shape of dose response curves but does result in increases in R₂ by up to 4% per day.