Direct dark matter search with the CRESST II experiment

J. Schieck; G. Angloher; A. Bento; C. Bucci; L. Canonica; X. Defay; A. Erb; F. V. Feilitzsch; N. Ferreiro Iachellini; P. Gorla; A. Gütlein; D. Hauff; J. Jochum; M. Kiefer; H. Kluck; H. Kraus; J. C. Lanfranchi; J. Loebell; M. Mancuso; A. Münster; C. Pagliarone; F. Petricca; W. Potzel; F. Pröbst; R. Puig; F. Reindl; K. Schäffner; S. Schönert; W. Seidel; M. Stahlberg; L. Stodolsky; C. Strandhagen; R. Strauss; A. Tanzke; H. H.Trinh Thi; C. Türkoǧlu; M. Uffinger; A. Ulrich; I. Usherov; S. Wawoczny; M. Willers; M. Wüstrich; A. Zöller

Direct dark matter search with the CRESST II experiment

J. Schieck, G. Angloher, A. Bento, C. Bucci, L. Canonica, X. Defay, A. Erb, F. V. Feilitzsch, N. Ferreiro Iachellini, P. Gorla, A. Gütlein, D. Hauff, J. Jochum, M. Kiefer, H. Kluck, H. Kraus, J. C. Lanfranchi, J. Loebell, M. Mancuso, A. MünsterC. Pagliarone, F. Petricca, W. Potzel, F. Pröbst, R. Puig, F. Reindl, K. Schäffner, S. Schönert, W. Seidel, M. Stahlberg, L. Stodolsky, C. Strandhagen, R. Strauss, A. Tanzke, H. H.Trinh Thi, C. Türkoǧlu, M. Uffinger, A. Ulrich, I. Usherov, S. Wawoczny, M. Willers, M. Wüstrich, A. Zöller

Chair of Experimental Astroparticle Physics

Research output: Contribution to journal › Conference article › peer-review

Abstract

The quest for the particle nature of dark matter is one of the big open questions of modern physics. A well motivated candidate for dark matter is the so-called WIMP - a weakly interacting massive particle. Recently several theoretically well-motivated models with dark matter candidates in a mass region below the WIMP mass-scale gained also a lot of interest, theoretically and experimentally. The CRESST II experiment located at the Gran Sasso laboratory in Italy is optimised for the detection of the elastic scattering of these low-mass dark matter particles with ordinary matter. We show the results obtained with an improved detector setup with increased radio purity and enhanced background rejection and the results obtained with a dedicated low-threshold analysis of a single conventional detector module. The limit achieved is the most stringent limit achieved for direct dark matter experiments in the mass region below 1.8 GeV/c2. We will discuss the expected performance for new small CRESST-type detectors to be used during the next data taking phase. We conclude with an outlook of the future potential for direct dark matter detection using further improved CRESST CaWO4 cryogenic detectors.

Original language	English
Journal	Proceedings of Science
Volume	Part F128556
State	Published - 2016
Event	38th International Conference on High Energy Physics, ICHEP 2016 - Chicago, United States Duration: 3 Aug 2016 → 10 Aug 2016

Cite this

@article{e751e6ba4a9f494f8a13df633fa88c3a,

title = "Direct dark matter search with the CRESST II experiment",

abstract = "The quest for the particle nature of dark matter is one of the big open questions of modern physics. A well motivated candidate for dark matter is the so-called WIMP - a weakly interacting massive particle. Recently several theoretically well-motivated models with dark matter candidates in a mass region below the WIMP mass-scale gained also a lot of interest, theoretically and experimentally. The CRESST II experiment located at the Gran Sasso laboratory in Italy is optimised for the detection of the elastic scattering of these low-mass dark matter particles with ordinary matter. We show the results obtained with an improved detector setup with increased radio purity and enhanced background rejection and the results obtained with a dedicated low-threshold analysis of a single conventional detector module. The limit achieved is the most stringent limit achieved for direct dark matter experiments in the mass region below 1.8 GeV/c2. We will discuss the expected performance for new small CRESST-type detectors to be used during the next data taking phase. We conclude with an outlook of the future potential for direct dark matter detection using further improved CRESST CaWO4 cryogenic detectors.",

author = "J. Schieck and G. Angloher and A. Bento and C. Bucci and L. Canonica and X. Defay and A. Erb and Feilitzsch, {F. V.} and Iachellini, {N. Ferreiro} and P. Gorla and A. G{\"u}tlein and D. Hauff and J. Jochum and M. Kiefer and H. Kluck and H. Kraus and Lanfranchi, {J. C.} and J. Loebell and M. Mancuso and A. M{\"u}nster and C. Pagliarone and F. Petricca and W. Potzel and F. Pr{\"o}bst and R. Puig and F. Reindl and K. Sch{\"a}ffner and S. Sch{\"o}nert and W. Seidel and M. Stahlberg and L. Stodolsky and C. Strandhagen and R. Strauss and A. Tanzke and Thi, {H. H.Trinh} and C. T{\"u}rkoǧlu and M. Uffinger and A. Ulrich and I. Usherov and S. Wawoczny and M. Willers and M. W{\"u}strich and A. Z{\"o}ller",

note = "Publisher Copyright: {\textcopyright} Copyright owned by the author(s) under the terms of the Creative Commons.; 38th International Conference on High Energy Physics, ICHEP 2016 ; Conference date: 03-08-2016 Through 10-08-2016",

year = "2016",

language = "English",

volume = "Part F128556",

journal = "Proceedings of Science",

issn = "1824-8039",

publisher = "Sissa Medialab Srl",

}

Schieck, J, Angloher, G, Bento, A, Bucci, C, Canonica, L, Defay, X, Erb, A, Feilitzsch, FV, Iachellini, NF, Gorla, P, Gütlein, A, Hauff, D, Jochum, J, Kiefer, M, Kluck, H, Kraus, H, Lanfranchi, JC, Loebell, J, Mancuso, M, Münster, A, Pagliarone, C, Petricca, F, Potzel, W, Pröbst, F, Puig, R, Reindl, F, Schäffner, K, Schönert, S, Seidel, W, Stahlberg, M, Stodolsky, L, Strandhagen, C, Strauss, R, Tanzke, A, Thi, HHT, Türkoǧlu, C, Uffinger, M, Ulrich, A, Usherov, I, Wawoczny, S, Willers, M, Wüstrich, M & Zöller, A 2016, 'Direct dark matter search with the CRESST II experiment', Proceedings of Science, vol. Part F128556.

TY - JOUR

T1 - Direct dark matter search with the CRESST II experiment

AU - Schieck, J.

AU - Angloher, G.

AU - Bento, A.

AU - Bucci, C.

AU - Canonica, L.

AU - Defay, X.

AU - Erb, A.

AU - Feilitzsch, F. V.

AU - Iachellini, N. Ferreiro

AU - Gorla, P.

AU - Gütlein, A.

AU - Hauff, D.

AU - Jochum, J.

AU - Kiefer, M.

AU - Kluck, H.

AU - Kraus, H.

AU - Lanfranchi, J. C.

AU - Loebell, J.

AU - Mancuso, M.

AU - Münster, A.

AU - Pagliarone, C.

AU - Petricca, F.

AU - Potzel, W.

AU - Pröbst, F.

AU - Puig, R.

AU - Reindl, F.

AU - Schäffner, K.

AU - Schönert, S.

AU - Seidel, W.

AU - Stahlberg, M.

AU - Stodolsky, L.

AU - Strandhagen, C.

AU - Strauss, R.

AU - Tanzke, A.

AU - Thi, H. H.Trinh

AU - Türkoǧlu, C.

AU - Uffinger, M.

AU - Ulrich, A.

AU - Usherov, I.

AU - Wawoczny, S.

AU - Willers, M.

AU - Wüstrich, M.

AU - Zöller, A.

PY - 2016

Y1 - 2016

N2 - The quest for the particle nature of dark matter is one of the big open questions of modern physics. A well motivated candidate for dark matter is the so-called WIMP - a weakly interacting massive particle. Recently several theoretically well-motivated models with dark matter candidates in a mass region below the WIMP mass-scale gained also a lot of interest, theoretically and experimentally. The CRESST II experiment located at the Gran Sasso laboratory in Italy is optimised for the detection of the elastic scattering of these low-mass dark matter particles with ordinary matter. We show the results obtained with an improved detector setup with increased radio purity and enhanced background rejection and the results obtained with a dedicated low-threshold analysis of a single conventional detector module. The limit achieved is the most stringent limit achieved for direct dark matter experiments in the mass region below 1.8 GeV/c2. We will discuss the expected performance for new small CRESST-type detectors to be used during the next data taking phase. We conclude with an outlook of the future potential for direct dark matter detection using further improved CRESST CaWO4 cryogenic detectors.

AB - The quest for the particle nature of dark matter is one of the big open questions of modern physics. A well motivated candidate for dark matter is the so-called WIMP - a weakly interacting massive particle. Recently several theoretically well-motivated models with dark matter candidates in a mass region below the WIMP mass-scale gained also a lot of interest, theoretically and experimentally. The CRESST II experiment located at the Gran Sasso laboratory in Italy is optimised for the detection of the elastic scattering of these low-mass dark matter particles with ordinary matter. We show the results obtained with an improved detector setup with increased radio purity and enhanced background rejection and the results obtained with a dedicated low-threshold analysis of a single conventional detector module. The limit achieved is the most stringent limit achieved for direct dark matter experiments in the mass region below 1.8 GeV/c2. We will discuss the expected performance for new small CRESST-type detectors to be used during the next data taking phase. We conclude with an outlook of the future potential for direct dark matter detection using further improved CRESST CaWO4 cryogenic detectors.

UR - http://www.scopus.com/inward/record.url?scp=85025843073&partnerID=8YFLogxK

M3 - Conference article

AN - SCOPUS:85025843073

SN - 1824-8039

VL - Part F128556

JO - Proceedings of Science

JF - Proceedings of Science

T2 - 38th International Conference on High Energy Physics, ICHEP 2016

Y2 - 3 August 2016 through 10 August 2016

ER -

Direct dark matter search with the CRESST II experiment

Abstract

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