First results from the CERN axion solar telescope

K Zioutas; S Andriamonje; V Arsov; S Aune; D Autiero; F T Avignone; K Barth; A Belov; B Beltrán; H Bräuninger; J M Carmona; S Cebrián; E Chesi; J I Collar; R Creswick; T Dafni; M Davenport; L Di Lella; C Eleftheriadis; J Englhauser; G Fanourakis; H Farach; E Ferrer; H Fischer; J Franz; P Friedrich; T Geralis; I Giomataris; S Gninenko; N Goloubev; M D Hasinoff; F H Heinsius; D H H Hoffmann; I G Irastorza; J Jacoby; D Kang; K Königsmann; R Kotthaus; M Krcmar; K Kousouris; M Kuster; B Lakić; C Lasseur; A Liolios; A Ljubicić; G Lutz; G Luzón; D W Miller; A Morales; J Morales; M Mutterer; A Nikolaidis; A Ortiz; T Papaevangelou; A Placci; G Raffelt; J Ruz; H Riege; M L Sarsa; I Savvidis; W Serber; P Serpico; Y Semertzidis; L Stewart; J D Vieira; J Villar; L Walckiers; K Zachariadou; CAST Collaboration

doi:10.1103/PhysRevLett.94.121301

First results from the CERN axion solar telescope

Phys Rev Lett. 2005 Apr 1;94(12):121301. doi: 10.1103/PhysRevLett.94.121301. Epub 2005 Apr 1.

Authors

K Zioutas¹, S Andriamonje, V Arsov, S Aune, D Autiero, F T Avignone, K Barth, A Belov, B Beltrán, H Bräuninger, J M Carmona, S Cebrián, E Chesi, J I Collar, R Creswick, T Dafni, M Davenport, L Di Lella, C Eleftheriadis, J Englhauser, G Fanourakis, H Farach, E Ferrer, H Fischer, J Franz, P Friedrich, T Geralis, I Giomataris, S Gninenko, N Goloubev, M D Hasinoff, F H Heinsius, D H H Hoffmann, I G Irastorza, J Jacoby, D Kang, K Königsmann, R Kotthaus, M Krcmar, K Kousouris, M Kuster, B Lakić, C Lasseur, A Liolios, A Ljubicić, G Lutz, G Luzón, D W Miller, A Morales, J Morales, M Mutterer, A Nikolaidis, A Ortiz, T Papaevangelou, A Placci, G Raffelt, J Ruz, H Riege, M L Sarsa, I Savvidis, W Serber, P Serpico, Y Semertzidis, L Stewart, J D Vieira, J Villar, L Walckiers, K Zachariadou; CAST Collaboration

Affiliation

¹ Aristotle University of Thessaloniki, Thessaloniki, Greece.

PMID: 15903903
DOI: 10.1103/PhysRevLett.94.121301

Abstract

Hypothetical axionlike particles with a two-photon interaction would be produced in the sun by the Primakoff process. In a laboratory magnetic field ("axion helioscope"), they would be transformed into x-rays with energies of a few keV. Using a decommissioned Large Hadron Collider test magnet, the CERN Axion Solar Telescope ran for about 6 months during 2003. The first results from the analysis of these data are presented here. No signal above background was observed, implying an upper limit to the axion-photon coupling g(agamma)<1.16x10(-10) GeV-1 at 95% C.L. for m(a) less, similar 0.02 eV. This limit, assumption-free, is comparable to the limit from stellar energy-loss arguments and considerably more restrictive than any previous experiment over a broad range of axion masses.