Agata characterisation and pulse shape analysis

被引:0
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作者
A. J. Boston
F. C. L. Crespi
G. Duchêne
P. Désesquelles
J. Gerl
F. Holloway
D. S. Judson
A. Korichi
L. Harkness-Brennan
J. Ljungvall
B. Quintana-Arnés
P. Reiter
O. Stezowski
机构
[1] Dipartimento di Fisica dell’Universitá degli Studi di Milano,
[2] INFN,undefined
[3] Sezione di Milano,undefined
[4] IJCLab,undefined
[5] CNRS/IN2P3,undefined
[6] Université Paris-Saclay,undefined
[7] Université Paris-Saclay,undefined
[8] CNRS/IN2P3,undefined
[9] LPGP,undefined
[10] University of Cologne,undefined
[11] Institut für Kernphysik,undefined
[12] University of Liverpool,undefined
[13] Oliver Lodge Building,undefined
[14] Université de Strasbourg,undefined
[15] CNRS,undefined
[16] IPHC UMR 7178,undefined
[17] Université Lyon,undefined
[18] CNRS/IN2P3,undefined
[19] IP2I,undefined
[20] GSI Helmholtzzentrum für Schwerionenforschung GmbH,undefined
[21] Departamento de Física Fundamental,undefined
[22] Universidad de Salamanca,undefined
来源
The European Physical Journal A | / 59卷
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摘要
The AGATA and GRETA spectrometers are large arrays of highly segmented HPGe detectors that use the technique of gamma ray tracking to reconstruct the scattering path of gamma rays interacting within the active material. A basic requirement is a precise reconstruction of the individual interaction locations within the detectors. This is possible through the use of pulse shape analysis which has to be conducted in real time due to the high data rates generated by the spectrometer. The methodologies that have been evaluated to perform this for AGATA are discussed along with the approaches used to calculate the pulse shape databases required by these algorithms. Finally, the performance and limitations of the existing approaches are reviewed.
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