Axion searches with the EDELWEISS-II experiment

E. Armengaud; Q. Arnaud; C. Augier; A. Benoit; A. Benoit; L. Bergé; T. Bergmann; J. Blümer; A. Broniatowski; V. Brudanin; P. Camus; A. Cazes; B. Censier; M. Chapellier; F. Charlieux; F. Couëdo; P. Coulter; G.A. Cox; T. de Boissière; M. De Jesus; Y. Dolgorouky; A.A. Drillien; L. Dumoulin; K. Eitel; D. Filosofov; N. Fourches; J. Gascon; G. Gerbier; M. Gros; L. Hehn; S. Henry; S. Hervé; G. Heuermann; N. Holtzer; V. Humbert; A. Juillard; C. Kéfélian; M. Kleifges; H. Kluck; V. Kozlov; H. Kraus; V.A. Kudryavtsev; H. Le Sueur; M. Mancuso; C. Marrache-Kikuchi; S. Marnieros; A. Menshikov; X-F. Navick; C. Nones; E. Olivieri; P. Pari; B. Paul; M.C. Piro; O. Rigaut; M. Robinson; S. Rozov; V. Sanglard; B. Schmidt; B. Siebenborn; D. Tcherniakhovski; M. Tenconi; L. Vagneron; R.J. Walker; M. Weber; E. Yakushev; X. Zhang

doi:10.1088/1475-7516/2013/11/067

Journal of Cosmology and Astroparticle Physics

Axion searches with the EDELWEISS-II experiment

E. Armengaud¹, Q. Arnaud², C. Augier², A. Benoit³, A. Benoit², L. Bergé⁴, T. Bergmann⁵, J. Blümer^6,7, A. Broniatowski⁴, V. Brudanin⁸, P. Camus³, A. Cazes², B. Censier², M. Chapellier⁴, F. Charlieux², F. Couëdo⁴, P. Coulter⁹, G.A. Cox⁶, T. de Boissière¹, M. De Jesus², Y. Dolgorouky⁴, A.A. Drillien⁴, L. Dumoulin⁴, K. Eitel⁷, D. Filosofov⁸, N. Fourches¹, J. Gascon², G. Gerbier¹, M. Gros¹, L. Hehn⁷, S. Henry⁹, S. Hervé¹, G. Heuermann⁶, N. Holtzer⁴, V. Humbert⁴, A. Juillard², C. Kéfélian^2,6, M. Kleifges⁵, H. Kluck⁶, V. Kozlov⁷, H. Kraus⁹, V.A. Kudryavtsev¹⁰, H. Le Sueur⁴, M. Mancuso⁴, C. Marrache-Kikuchi⁴, S. Marnieros⁴, A. Menshikov⁵, X-F. Navick¹, C. Nones¹, E. Olivieri⁴, P. Pari¹¹, B. Paul¹, M.C. Piro^1,4, O. Rigaut⁴, M. Robinson¹⁰, S. Rozov⁸, V. Sanglard², B. Schmidt⁶, B. Siebenborn⁷, D. Tcherniakhovski⁵, M. Tenconi⁴, L. Vagneron², R.J. Walker⁷, M. Weber⁵, E. Yakushev⁸ and X. Zhang⁹

Published 29 November 2013 • Published under licence by IOP Publishing Ltd
Journal of Cosmology and Astroparticle Physics, Volume 2013, November 2013 Citation E. Armengaud et al JCAP11(2013)067 DOI 10.1088/1475-7516/2013/11/067

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¹ CEA, Centre d'Etudes Saclay, IRFU, 91191 Gif-Sur-Yvette Cedex, France

² IPNL, Université de Lyon, Université Lyon 1, CNRS/IN2P3, 4 rue E. Fermi 69622 Villeurbanne cedex, France

³ CNRS-Néel, 25 Avenue des Martyrs, 38042 Grenoble cedex 9, France

⁴ CSNSM, Université Paris-Sud, IN2P3-CNRS, bat 108, 91405 Orsay, France

⁵ Karlsruhe Institute of Technology, Institut für Prozessdatenverarbeitung und Elektronik, 76021 Karlsruhe, Germany

⁶ Karlsruhe Institute of Technology, Institut für Experimentelle Kernphysik, 76128 Karlsruhe, Germany

⁷ Karlsruhe Institute of Technology, Institut für Kernphysik, 76021 Karlsruhe, Germany

⁸ Laboratory of Nuclear Problems, JINR, Joliot-Curie 6, 141980 Dubna, Moscow region, Russia

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

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

¹¹ CEA, Centre d'Etudes Saclay, IRAMIS, 91191 Gif-Sur-Yvette Cedex, France

Dates

Received 4 July 2013
Accepted 29 September 2013
Published 29 November 2013

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Abstract

We present new constraints on the couplings of axions and more generic axion-like particles using data from the EDELWEISS-II experiment. The EDELWEISS experiment, located at the Underground Laboratory of Modane, primarily aims at the direct detection of WIMPs using germanium bolometers. It is also sensitive to the low-energy electron recoils that would be induced by solar or dark matter axions. Using a total exposure of up to 448 kg.d, we searched for axion-induced electron recoils down to 2.5 keV within four scenarios involving different hypotheses on the origin and couplings of axions. We set a 95 % CL limit on the coupling to photons g_Aγ < 2.15 × 10⁻⁹ GeV⁻¹ in a mass range not fully covered by axion helioscopes. We also constrain the coupling to electrons, g_Ae < 2.59 × 10⁻¹¹, similar to the more indirect solar neutrino bound. Finally we place a limit on g_Ae × g_AN^eff < 4.82 × 10⁻¹⁷, where g_AN^eff is the effective axion-nucleon coupling for ⁵⁷Fe. Combining these results we fully exclude the mass range 0.92 eV < m_A < 80 keV for DFSZ axions and 5.78 eV < m_A < 40 keV for KSVZ axions.

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