The nuclear and spectral interferences in the 14 MeV neutron activation analysis (NAA) of gold from Romanian auriferous alluvial
sands, concentrates and rocks have been studied and the optimum of activation, cooling and measuring times was determined
for a maximum peak-to-background ratio for gold. The contribution of the nuclear interfering elements in the samples, Hg and
Pt, to the concentration of gold has been calculated and, concluded that the nuclear reactions 197Au(n,2n)196Au, 197Au(n,2n)196mAu and 197Au(n,n')197mAu can be used for gold determination, with minimal errors. Using the nuclear reactions 197Au(n,n')197mAu and 197Au(n,2n)196Au the spectral interferences are minimal and are due to Rb, Ti and V for a short irradiation and to Se for a long one. Two
methods of fast gold determination were proposed for auriferous alluvial sands and rocks in the range of 20-2500 ppm, under
the optimum conditions established so that the systematic errors of analysis due to the gold accompanying elements can be
considerably diminished. For measuring the induced gamma-radioactivity in the samples either a short irradiation (25 seconds)
with a NaI(Tl) detector or a long irradiation (3000 seconds) with a Ge(Li) detector were used.