Correction for hole trapping in AGATA detectors using pulse shape analysis View Full Text


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Article Info

DATE

2013-05-22

AUTHORS

for the AGATA Collaboration, B. Bruyneel, B. Birkenbach, J. Eberth, H. Hess, Gh. Pascovici, P. Reiter, A. Wiens, D. Bazzacco, E. Farnea, C. Michelagnoli, F. Recchia

ABSTRACT

Data from the highly segmented High-Purity Germanium (HPGe) detectors of the AGATA spectrometer show that segments are more sensitive to neutron damage than the central core contact. Calculations on the collection efficiency of charge carriers inside the HPGe detector were performed in order to understand this phenomenon. The trapping sensitivity, an expression based on the collection efficiencies for electrons and holes, is put forward to quantify the effect of charge carrier trapping. The sensitivity is evaluated for each position in the detector volume with respect to the different electrodes and the collected charge carrier type. Using the position information obtained by pulse shape analysis from the position-sensitive AGATA detectors, it is possible to correct for the energy deficit employing detector specific sensitivity values. We report on the successful correction of the energy peaks from heavily neutron-damaged AGATA detectors for core and segment electrode signals. The original energy resolution can optimally be recovered up to a certain quantifiable limit of degradation due to statistical fluctuations caused by trapping effects. More... »

PAGES

61

References to SciGraph publications

  • 1989-11. Recombination and ionization processes at impurity centres in hot-electron semiconductor transport in LA RIVISTA DEL NUOVO CIMENTO
  • 2008-06-23. Electronics for Drift Chambers in PARTICLE DETECTION WITH DRIFT CHAMBERS
  • 2013-04-18. Improved energy resolution of highly segmented HPGe detectors by noise reduction in THE EUROPEAN PHYSICAL JOURNAL A
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    http://dx.doi.org/10.1140/epja/i2013-13061-4

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    https://app.dimensions.ai/details/publication/pub.1049263416


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