Signals induced by charge-trapping in EDELWEISS FID detectors: analytical modeling and applications

Q. Arnaud; E. Armengaud; C. Augier; A. Benoît; L. Bergé; J. Billard; J. Blümer; T. de Boissière; A. Broniatowski; P. Camus; A. Cazes; M. Chapellier; F. Charlieux; L. Dumoulin; K. Eitel; N. Foerster; N. Fourches; J. Gascon; A. Giuliani; M. Gros; L. Hehn; G. Heuermann; M. De Jésus; Y. Jin; A. Juillard; M. Kleifges; V. Kozlov; H. Kraus; C. Kéfélian; V.A. Kudryavtsev; H. Le-Sueur; S. Marnieros; X.-F. Navick; C. Nones; E. Olivieri; P. Pari; B. Paul; M.-C. Piro; D. Poda; E. Queguiner; S. Rozov; V. Sanglard; B. Schmidt; S. Scorza; B. Siebenborn; D. Tcherniakhovski; L. Vagneron; M. Weber; E. Yakushev

doi:10.1088/1748-0221/11/10/P10008

Journal of Instrumentation

Signals induced by charge-trapping in EDELWEISS FID detectors: analytical modeling and applications

Q. Arnaud¹, E. Armengaud², C. Augier¹, A. Benoît³, L. Bergé⁴, J. Billard¹, J. Blümer^5,6, T. de Boissière², A. Broniatowski^4,5, P. Camus³, A. Cazes¹, M. Chapellier⁴, F. Charlieux¹, L. Dumoulin⁴, K. Eitel⁶, N. Foerster⁵, N. Fourches², J. Gascon¹, A. Giuliani⁴, M. Gros², L. Hehn⁶, G. Heuermann⁵, M. De Jésus¹, Y. Jin⁷, A. Juillard¹, M. Kleifges⁸, V. Kozlov⁶, H. Kraus⁹, C. Kéfélian^1,5, V.A. Kudryavtsev¹⁰, H. Le-Sueur⁴, S. Marnieros⁴, X.-F. Navick², C. Nones², E. Olivieri⁴, P. Pari¹¹, B. Paul², M.-C. Piro⁴, D. Poda⁴, E. Queguiner¹, S. Rozov¹², V. Sanglard¹, B. Schmidt⁶, S. Scorza⁵, B. Siebenborn⁶, D. Tcherniakhovski⁸, L. Vagneron¹, M. Weber⁸ and E. Yakushev¹²

Published 11 October 2016 • © 2016 IOP Publishing Ltd and Sissa Medialab srl
Journal of Instrumentation, Volume 11, October 2016 Citation Q. Arnaud et al 2016 JINST 11 P10008 DOI 10.1088/1748-0221/11/10/P10008

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¹ Univ. Lyon, Université Claude Bernard Lyon 1, CNRS-IN2P3, Institut de Physique Nucléaire de Lyon, F-69622, Villeurbanne, France

² CEA Saclay, DSM/IRFU, 91191 Gif-sur-Yvette Cedex, France

³ Institut Néel, CNRS/UJF, 25 rue des Martyrs, BP 166, 38042 Grenoble, France

⁴ CSNSM, Univ. Paris-Sud, CNRS/IN2P3, Université Paris-Saclay, 91405 Orsay, France

⁵ Karlsruher Institut für Technologie, Institut für Experimentelle Kernphysik, Gaedestr. 1, 76128 Karlsruhe, Germany

⁶ Karlsruher Institut für Technologie, Institut für Kernphysik, Postfach 3640, 76021 Karlsruhe, Germany

⁷ Laboratoire de Photonique et de Nanostructures, CNRS, Route de Nozay, 91460 Marcoussis, France

⁸ Karlsruher Institut für Technologie, Institut für Prozessdatenverarbeitung und Elektronik, Postfach 3640, 76021 Karlsruhe, Germany

⁹ University of Oxford, Department of Physics, Keble Road, Oxford OX1 3RH, U.K.

¹⁰ University of Sheffield, Department of Physics and Astronomy, Sheffield, S3 7RH, U.K.

¹¹ CEA Saclay, DSM/IRAMIS, 91191 Gif-sur-Yvette Cedex, France

¹² JINR, Laboratory of Nuclear Problems, Joliot-Curie 6, 141980 Dubna, Moscow Region, Russian Federation

Dates

Received 7 July 2016
Accepted 26 September 2016
Published 11 October 2016

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Abstract

The EDELWEISS-III direct dark matter search experiment uses cryogenic HP-Ge detectors Fully covered with Inter-Digitized electrodes (FID). They are operated at low fields (< 1 V/cm), and as a consequence charge-carrier trapping significantly affects both the ionization and heat energy measurements. This paper describes an analytical model of the signals induced by trapped charges in FID detectors based on the Shockley-Ramo theorem. It is used to demonstrate that veto electrodes, initially designed for the sole purpose of surface event rejection, can be used to provide a sensitivity to the depth of the energy deposits, characterize the trapping in the crystals, perform heat and ionization energy corrections and improve the ionization baseline resolutions. These procedures are applied successfully to actual data.

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