Design Study of the Absorber Detector of a Compton Camera for On-Line Control in Ion Beam Therapy

The goal of this study is to tune the design of the absorber detector of a Compton camera for prompt γ-ray imaging during ion beam therapy. The response of the Compton camera to a photon point source with a realistic energy spectrum (corresponding to the prompt γ-ray spectrum emitted during the carb...

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Published in:IEEE transactions on nuclear science 2012-10, Vol.59 (5), p.1850-1855
Main Authors: Richard, M.-H, Dahoumane, M., Dauvergne, D., De Rydt, M., Dedes, G., Freud, N., Krimmer, J., Letang, J. M., Lojacono, X., Maxim, V., Montarou, G., Ray, C., Roellinghoff, F., Testa, E., Walenta, A. H.
Format: Article
Language:English
Subjects:
BGO
Cameras
Compton camera
Detectors
Energy resolution
Engineering Sciences
Geant4
hadrontherapy
ion beam therapy
Ion beams
LaBr _3
LYSO
NaI
Photonics
prompt gamma-ray
Signal and Image processing
Silicon
Spatial resolution
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cited_by cdi_FETCH-LOGICAL-c363t-7a82827735772eea5486b4d95543efd8aaf46ef4548f1eb6faed9da55c9c528c3
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container_title IEEE transactions on nuclear science
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creator Richard, M.-H
Dahoumane, M.
Dauvergne, D.
De Rydt, M.
Dedes, G.
Freud, N.
Krimmer, J.
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Lojacono, X.
Maxim, V.
Montarou, G.
Ray, C.
Roellinghoff, F.
Testa, E.
Walenta, A. H.
description The goal of this study is to tune the design of the absorber detector of a Compton camera for prompt γ-ray imaging during ion beam therapy. The response of the Compton camera to a photon point source with a realistic energy spectrum (corresponding to the prompt γ-ray spectrum emitted during the carbon irradiation of a water phantom) is studied by means of Geant4 simulations. Our Compton camera consists of a stack of 2 mm thick silicon strip detectors as a scatter detector and of a scintillator plate as an absorber detector. Four scintillators are considered: LYSO, NaI, LaBr 3 and BGO. LYSO and BGO appear as the most suitable materials, due to their high photo-electric cross-sections, which leads to a high percentage of fully absorbed photons. Depth-of-interaction measurements are shown to have limited influence on the spatial resolution of the camera. In our case, the thickness which gives the best compromise between a high percentage of photons that are fully absorbed and a low parallax error is about 4 cm for the LYSO detector and 4.5 cm for the BGO detector. The influence of the width of the absorber detector on the spatial resolution is not very pronounced as long as it is lower than 30 cm.
doi_str_mv 10.1109/TNS.2012.2206053
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source IEEE Electronic Library (IEL) Journals
subjects BGO
Cameras
Compton camera
Detectors
Energy resolution
Engineering Sciences
Geant4
hadrontherapy
ion beam therapy
Ion beams
LaBr _3
LYSO
NaI
Photonics
prompt gamma-ray
Signal and Image processing
Silicon
Spatial resolution
title Design Study of the Absorber Detector of a Compton Camera for On-Line Control in Ion Beam Therapy
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