Nuclear Reaction Analysis and Proton‐Induced Gamma Ray Emission

Abstract: Nuclear reaction analysis (NRA) and proton‐ (particle‐) induced gamma ray emission (PIGE) are based on the interaction of energetic (from a few hundred kilo‐electron‐volt to several mega‐electron‐volt) ions with light nuclei. Every nuclear analytical technique that uses nuclear reactions has a unique feature—isotope sensitivity. Therefore, it is insensitive to matrix effects, and there is much less interference than in methods where signals from different elements overlap. In NRA the nuclear reaction produces … Show more

“…High precision gamma-ray spectroscopy is a powerful tool that is widely used to study the structure of excited nuclear states [1,2] of irradiated targets in many applications such as prompt gamma neutron activation analysis [3][4][5] and proton induced prompt gamma emission [6][7][8][9]. The prompt gammarays produced by nuclear interactions between the target and the incident particles can be used for the determination and online monitoring of the elemental composition of the irradiated target.…”

Evaluation the nonlinear response function of a HPGe detector for 59 keV to 10.7 MeV gamma-rays using a Monte Carlo simulation and comparison with experimental data

“…High precision gamma-ray spectroscopy is a powerful tool that is widely used to study the structure of excited nuclear states [1,2] of irradiated targets in many applications such as prompt gamma neutron activation analysis [3][4][5] and proton induced prompt gamma emission [6][7][8][9]. The prompt gammarays produced by nuclear interactions between the target and the incident particles can be used for the determination and online monitoring of the elemental composition of the irradiated target.…”

Evaluation the nonlinear response function of a HPGe detector for 59 keV to 10.7 MeV gamma-rays using a Monte Carlo simulation and comparison with experimental data