Compton tomography is an experimental technique that can be used for obtain a spatial map of the electronic density of samples. However, in order to obtain quantitative results the reconstruction algorithm must keep into account the absorption of the incident and scattered radiation. Some specialized algorithms have been proposed in the literature, however in most cases the quality of the reconstructed images is still poor, and cannot be used for quantitative measurements, especially in strong absorption condition. In this paper a recently developed reconstruction algorithm is described. This algorithm accurately reconstructs the electronic density distribution from Compton measurements and it can be applied both to monochromatic and polychromatic beams. Some results are reported here and discussed.
Correction for X-ray absorption in Compton tomography / Golosio, Bruno; Brunetti, Antonio; R., Cesareo. - In: JOURNAL DE PHYSIQUE IV. - ISSN 1155-4339. - 104:(2003), pp. 651-654. [10.1051/jp4:20030164]
Correction for X-ray absorption in Compton tomography
GOLOSIO, Bruno;BRUNETTI, Antonio;
2003-01-01
Abstract
Compton tomography is an experimental technique that can be used for obtain a spatial map of the electronic density of samples. However, in order to obtain quantitative results the reconstruction algorithm must keep into account the absorption of the incident and scattered radiation. Some specialized algorithms have been proposed in the literature, however in most cases the quality of the reconstructed images is still poor, and cannot be used for quantitative measurements, especially in strong absorption condition. In this paper a recently developed reconstruction algorithm is described. This algorithm accurately reconstructs the electronic density distribution from Compton measurements and it can be applied both to monochromatic and polychromatic beams. Some results are reported here and discussed.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
