B.D. Pate

TL;DR: In this paper, the evaporation formalism of the compound-statistical theory of nuclear reactions is presented in a form containing the explicit dependence of the emission probability on angular momentum and suitable for computation of excitation functions by the Monte Carlo technique.

TL;DR: In this paper, data for reactions involving single particle emission have been analysed via the compound statistical model, with explicit inclusion of angular momentum effects, and the level density parameter, derived from comparison of the results of these calculations with experimental data agree with values predicted for the Fermi gas model.

TL;DR: In this article, the energy distribution of emitted particles from the Rh103(α,α′), Rh103 (α,p) and Mo92(α-p) reactions is analyzed via the compound-statistical model for nuclear reactions.

TL;DR: In this article, the half-life of 12.9 d Cs 136 was calculated to be 0.28 sec, which corresponds to the 0.3 sec isomer Ba 136m previously observed in the reaction Ba 135 (n, γ)Ba 136m.

TL;DR: The 6 min positon activity induced in tin by 20 MeV alpha-particle bombardment has been studied in this paper, and its identification as Te 115 has been confirmed by means of scintillation spectroscopy.