Gamma-ray tracking with segmented HPGe detectors
AUTOR(ES)
Wieland, O., Kröll, Th., Bazzacco, D., Venturelli, R., Camera, F., Million, B., Musso, E., Quintana, B., Ur, C. A., Bellato, M., Isocrate, R., Manea, Ch., Menegazzo, R., Pavan, P., Rossi Alvarez, C., Farnea, E., Gadea, A., Rosso, D., Spolaore, P., Pullia, A., Casati, G., Geraci, A., Ripamonti, G., Descovich, M.
FONTE
Brazilian Journal of Physics
DATA DE PUBLICAÇÃO
2003-06
RESUMO
This paper gives a brief overview of the technical progress that can be achieved with the newly available segmented HPGe detectors. Gamma-ray tracking detectors are a new generation of HPGe detectors which are currently being developed to improve significantly the efficiency and resolving power of the 4pi germanium detectors arrays for high-precision gamma-ray spectroscopy. They consist of highly segmented HPGe detectors associated with fast digital front-end electronics. Through the pulse-shape analysis of the signals it is possible to extract the energy, timing and spatial information on the few interactions a gamma-ray undergoes in the HPGe detector. The tracks of the gamma-rays in the HPGe detector can then be reconstructed in three dimensions based on the Compton scattering formula. Such a detector has been used for the first time during an in-beam experiment. The gamma-decay of the Coulomb excitation of a 56Fe nucleus was measured with the highly segmented MARS prototype positioned at 135 degree. The energy resolution has been improved by a factor of 3 as compared to standard HPGe detectors due to very precise Doppler correction based on knowledge of the gamma-ray track.
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