학술논문
Limits on dark matter effective field theory parameters with CRESST-II
Document Type
article
Author
G. Angloher; P. Bauer; A. Bento; E. Bertoldo; C. Bucci; L. Canonica; A. D’Addabbo; X. Defay; S. Di Lorenzo; A. Erb; F. v. Feilitzsch; N. Ferreiro Iachellini; P. Gorla; D. Hauff; J. Jochum; M. Kiefer; H. Kluck; H. Kraus; A. Langenkämper; M. Mancuso; V. Mokina; E. Mondragon; V. Morgalyuk; A. Münster; M. Olmi; C. Pagliarone; F. Petricca; W. Potzel; F. Pröbst; F. Reindl; J. Rothe; K. Schäffner; J. Schieck; V. Schipperges; S. Schönert; M. Stahlberg; L. Stodolsky; C. Strandhagen; R. Strauss; C. Türkoglu; I. Usherov; M. Willers; M. Wüstrich; V. Zema; The CRESST Collaboration; R. Catena
Source
European Physical Journal C: Particles and Fields, Vol 79, Iss 1, Pp 1-7 (2019)
Subject
Language
English
ISSN
1434-6044
1434-6052
1434-6052
Abstract
Abstract CRESST is a direct dark matter search experiment, aiming for an observation of nuclear recoils induced by the interaction of dark matter particles with cryogenic scintillating calcium tungstate crystals. Instead of confining ourselves to standard spin-independent and spin-dependent searches, we re-analyze data from CRESST-II using a more general effective field theory (EFT) framework. On many of the EFT coupling constants, improved exclusion limits in the low-mass region (< 3–4 GeV/$$c^2$$ c2 ) are presented.