Title :
Compton imaging in a high energetic photon field
Author :
Kormoll, T. ; Golnik, C. ; Akhmadaliev, S. ; Bemmerer, D. ; Borany, J.V. ; Fiedler, Fine ; Hueso Gonzalez, F. ; Heidel, K. ; Kempe, M. ; Rohling, Hermann ; Schmidt, Karsten ; Schone, S. ; Wagner, Libor ; Pausch, G.
Author_Institution :
OncoRay - Radiat. Res. in Oncology, Univ. of Technol. Dresden, Dresden, Germany
fDate :
Oct. 27 2013-Nov. 2 2013
Abstract :
Through the well defined range of charged particles in matter, cancer irradiation by means of ions can be very tumor conformal. However, external range verification is needed to fully exploit the advantages of ion beam therapy. Nuclear interactions between the projectiles and targets result in excited nuclei which emit photons in the MeV energy range during deexcitation. With a Compton camera, it should be possible to image the origin of these photons which is correlated to the beam position. A prototype Compton camera comprising CdZnTe layers and scintillation detectors has been developed and tested with radioactive point sources. In this work, the performance of the camera is tested at a tandetron beam line in a clean radiation field of 4.44 MeV photons. It was shown that Compton imaging at this energy is feasible.
Keywords :
biomedical optical imaging; cameras; cancer; radiation therapy; solid scintillation detectors; tumours; CdZnTe layers; Compton camera; Compton imaging; cancer irradiation; charged particles; deexcitatioin; high-energetic photon field; ion beam therapy; nuclear interaction; photon radiation field; radioactive point sources; scintillation detector; tandetron beam line; tumor conformal; Cameras; Detectors; Germanium; Image reconstruction; Photonics; Radiation effects;
Conference_Titel :
Nuclear Science Symposium and Medical Imaging Conference (NSS/MIC), 2013 IEEE
Conference_Location :
Seoul
Print_ISBN :
978-1-4799-0533-1
DOI :
10.1109/NSSMIC.2013.6829302
