Add to ORKGA pixellated germanium Compton camera is currently being developed for imaging 511 keV sources in nuclear medicine. It was built by ORTEC and consists of two planar Ge detectors (the scatter and the absorption detector) housed within the same cryostat. The scatter and absorption detectors have 152 and 25 4×4 mm2 pixels respectively. The readout electronics was developed at Daresbury Laboratory UK and consists of 15 GRT4 VME cards and a PowerPC. The system is controlled by a PC running MIDAS software. This paper reports the current status of camera development. The pixel energy resolution has been measured to give an average of ∼0.5% at 356 keV using a NIM module and ∼2% using a simple digital algorithm. In addition, a centroiding algorithm ...
Abstract — We are developing a Compton camera based on Si and CdTe semiconductor imaging devices wit...
Current single-photon imaging systems in nuclear medicine employ mechanical (absorptive) collimation...
A novel Compton Scanner setup has been built, commissioned and operated at the Max-Planck-Institute ...
A pixellated germanium Compton camera is currently being developed for imaging 511 keV sources in nu...
The work presented in this thesis has focused on the development of a low dose Compton camera for nu...
International audienceCompton cameras have the potential to become an emerging technology in Nuclear...
C-SPRINT is a prototype electronically-collimated imaging system that has been built using pixellate...
The work presented in this thesis is aimed at the study of Compton scatter as an alternative method ...
We present a quantitative study on the performance of cadmium zinc telluride (CZT), thallium-doped s...
We are studying the performance of various thickness GaAs pixel detectors bump-bonded to a dedicated...
We report the status of the art of a prototype based on a GaAs pixel detector bump-bonded to a dedic...
The work presented in this thesis is aimed at the study of Compton scatter as an alternative method ...
We report the status of the art of a prototype based on a GaAs pixel detector bump-bonded to a dedic...
The purpose of this study is to perform a first characterization and proof of principle investigatio...
Abstract — We are developing a Compton camera based on Si and CdTe semiconductor imaging devices wit...
Current single-photon imaging systems in nuclear medicine employ mechanical (absorptive) collimation...
A novel Compton Scanner setup has been built, commissioned and operated at the Max-Planck-Institute ...
A pixellated germanium Compton camera is currently being developed for imaging 511 keV sources in nu...
The work presented in this thesis has focused on the development of a low dose Compton camera for nu...
International audienceCompton cameras have the potential to become an emerging technology in Nuclear...
C-SPRINT is a prototype electronically-collimated imaging system that has been built using pixellate...
The work presented in this thesis is aimed at the study of Compton scatter as an alternative method ...
We present a quantitative study on the performance of cadmium zinc telluride (CZT), thallium-doped s...
We are studying the performance of various thickness GaAs pixel detectors bump-bonded to a dedicated...
We report the status of the art of a prototype based on a GaAs pixel detector bump-bonded to a dedic...
The work presented in this thesis is aimed at the study of Compton scatter as an alternative method ...
We report the status of the art of a prototype based on a GaAs pixel detector bump-bonded to a dedic...
The purpose of this study is to perform a first characterization and proof of principle investigatio...
Abstract — We are developing a Compton camera based on Si and CdTe semiconductor imaging devices wit...
Current single-photon imaging systems in nuclear medicine employ mechanical (absorptive) collimation...
A novel Compton Scanner setup has been built, commissioned and operated at the Max-Planck-Institute ...