DocumentCode
1139415
Title
A Monolithic Array of 77 Silicon Drift Detectors for X-Ray Spectroscopy and Gamma-Ray Imaging Applications
Author
Fiorini, C. ; Bellini, M. ; Gola, A. ; Longoni, A. ; Perotti, F. ; Lechner, P. ; Soltau, H. ; Strüder, L.
Author_Institution
Dipt. di Elettronica e Informazione, Politecnico di Milano, Italy
Volume
52
Issue
4
fYear
2005
Firstpage
1165
Lastpage
1170
Abstract
Monolithic arrays of Silicon Drift Detectors (SDDs) have been employed successfully in X-ray spectroscopy and 
-ray imaging applications. Thanks to the low electronics noise achieved at short shaping time, the SDD is an ideal device for high-resolution and high-rate X-ray spectroscopy experiments at synchrotron sources. Moreover, small monolithic arrays of SDDs have also been used as photodetector of the scintillation light in a first prototype of Anger Camera for -ray imaging characterized by an intrinsic resolution better than 0.3 mm. In this work we present a new large-area monolithic array of Silicon Drift Detectors. It consists of a single chip composed by 77 single hexagonal units, each one with a front-end JFET integrated in its center, arranged in a honeycomb configuration. Each SDD unit has an active area of 8.7 
, for a total active area of the device of 6.7 
. The linear dimensions of the active area are approximately 
. It represents the largest monolithic array of SDDs with on-chip JFETs produced up to now for X-ray and -ray detection. The results achieved in the experimental characterization of a first prototype of the detector array are presented. They include also the preliminary X-ray spectroscopy characterization of the SDD\´s units. The energy resolution measured at 6 keV with the single unit of the array is of 142eV at 
.
-ray imaging applications. Thanks to the low electronics noise achieved at short shaping time, the SDD is an ideal device for high-resolution and high-rate X-ray spectroscopy experiments at synchrotron sources. Moreover, small monolithic arrays of SDDs have also been used as photodetector of the scintillation light in a first prototype of Anger Camera for -ray imaging characterized by an intrinsic resolution better than 0.3 mm. In this work we present a new large-area monolithic array of Silicon Drift Detectors. It consists of a single chip composed by 77 single hexagonal units, each one with a front-end JFET integrated in its center, arranged in a honeycomb configuration. Each SDD unit has an active area of 8.7 , for a total active area of the device of 6.7 . The linear dimensions of the active area are approximately . It represents the largest monolithic array of SDDs with on-chip JFETs produced up to now for X-ray and -ray detection. The results achieved in the experimental characterization of a first prototype of the detector array are presented. They include also the preliminary X-ray spectroscopy characterization of the SDD\´s units. The energy resolution measured at 6 keV with the single unit of the array is of 142eV at .Keywords
X-ray detection; gamma-ray detection; photodetectors; silicon radiation detectors; -10 C; 26 mm; 29 mm; X-ray detection; X-ray spectroscopy; electronics noise; gamma-ray detection; gamma-ray imaging applications; honeycomb configuration; monolithic arrays; photodetector; scintillation light; silicon drift detectors; synchrotron sources; Gamma ray detection; Gamma ray detectors; High-resolution imaging; Nuclear imaging; Sensor arrays; Silicon; Spectroscopy; X-ray detection; X-ray detectors; X-ray imaging; Gamma-ray imaging; X-ray spectroscopy; silicon drift detectors;
fLanguage
English
Journal_Title
Nuclear Science, IEEE Transactions on
Publisher
ieee
ISSN
0018-9499
Type
jour
DOI
10.1109/TNS.2005.852727
Filename
1495823
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