LaBr 3(Ce) crystal showed excellent spectrometric properties mainly due to a very high light output and to an energy resolution slightly affected by the intrinsic factor. Furthermore, the properties of the radiation absorption are very similar to NaI(Tl) ones, hence it offers the potential to replace it in scintillation imaging detectors. Unfortunately, the cost of this crystal is high and it is also affected by a very high hygroscopicity and lower mechanical stability which may compromise its durability. In order to evaluate the real benefits of LaBr 3(Ce), we propose an imaging comparison with a second sample of NaI(Tl) by coupling them to a Hamamatsu H8500C multi-anode PMT. The crystal was produced identical in shape by Saint Gobain. In addition a second high QE MA-PMT was also tested (H8500C-Mod8 series PMT). A Geant4 Monte Carlo simulation was also implemented, where the light transport inside the crystals was taken into account. Very close results were obtained for both crystals when coupled to the new high QE MA-PMT and (0.95±0.05) mm spatial resolution -SR resulted, in spite of simulation where SR of LaBr 3(Ce) was expected to be 22% better than the NaI(Tl) one. This results seems to be related to an unexpected scintillation light background measured only in the LaBr 3(Ce), which limits the advantages would occur due to its highest light yield. Saint-Gobain, the most important manufacturer of LaBr 3(Ce) crystals, has established its own choices in the surface treatment so apparently limiting the intrinsic response of this crystal. In conclusion, these results revisit the use of continuous crystals for small-FoV gamma-camera applications with high spatial and energy resolution tanks to the improvement obtained with the new MA-PMT with high quantum efficiency. © 2011 IEEE.
LaBr 3(Ce) and NaI(Tl) performance comparison for single photon emission imaging / Pani, Roberto; P., Bennati; Pellegrini, Rosanna; Cinti, Maria Nerina; R., Scafe'; R., Stefano; DE VINCENTIS, Giuseppe; DI CASTRO, Elisabetta; S., Lo Meo; A., Fabbri; V., Cencelli; F., De Notaristefani. - STAMPA. - (2012), pp. 4433-4436. (Intervento presentato al convegno IEEE Nuclear Science Symposium/Medical Imaging Conference (NSS/MIC)/18th International Workshop on Room-Temperature Semiconductor X-Ray and Gamma-Ray Detectors tenutosi a Valencia, SPAIN nel 23 October 2011 through 29 October 2011) [10.1109/nssmic.2011.6153854].
LaBr 3(Ce) and NaI(Tl) performance comparison for single photon emission imaging
PANI, Roberto;PELLEGRINI, Rosanna;CINTI, Maria Nerina;DE VINCENTIS, Giuseppe;DI CASTRO, Elisabetta;
2012
Abstract
LaBr 3(Ce) crystal showed excellent spectrometric properties mainly due to a very high light output and to an energy resolution slightly affected by the intrinsic factor. Furthermore, the properties of the radiation absorption are very similar to NaI(Tl) ones, hence it offers the potential to replace it in scintillation imaging detectors. Unfortunately, the cost of this crystal is high and it is also affected by a very high hygroscopicity and lower mechanical stability which may compromise its durability. In order to evaluate the real benefits of LaBr 3(Ce), we propose an imaging comparison with a second sample of NaI(Tl) by coupling them to a Hamamatsu H8500C multi-anode PMT. The crystal was produced identical in shape by Saint Gobain. In addition a second high QE MA-PMT was also tested (H8500C-Mod8 series PMT). A Geant4 Monte Carlo simulation was also implemented, where the light transport inside the crystals was taken into account. Very close results were obtained for both crystals when coupled to the new high QE MA-PMT and (0.95±0.05) mm spatial resolution -SR resulted, in spite of simulation where SR of LaBr 3(Ce) was expected to be 22% better than the NaI(Tl) one. This results seems to be related to an unexpected scintillation light background measured only in the LaBr 3(Ce), which limits the advantages would occur due to its highest light yield. Saint-Gobain, the most important manufacturer of LaBr 3(Ce) crystals, has established its own choices in the surface treatment so apparently limiting the intrinsic response of this crystal. In conclusion, these results revisit the use of continuous crystals for small-FoV gamma-camera applications with high spatial and energy resolution tanks to the improvement obtained with the new MA-PMT with high quantum efficiency. © 2011 IEEE.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
