Geant4 simulations of the influence of contamination and roughness of the detector surface on background spectra in CRESST

CRESST Collaboration

Geant4 simulations of the influence of contamination and roughness of the detector surface on background spectra in CRESST

CRESST Collaboration

Lehrstuhl für Experimentelle Astroteilchenphysik

Publikation: Beitrag in Fachzeitschrift › Konferenzartikel › Begutachtung

Abstract

CRESST is an experiment for the direct detection of dark matter, capable of detecting nuclear recoils down to 10 eV, which results in an impressive sensitivity for sub-GeV dark matter particles. For a better understanding of the measured background a background model is developed. The background components are considered via Geant4 simulations. At the current state, the CRESST background model only considers bulk contaminations and treats all detector surfaces as perfect plains. This contribution presents potential effects of a surface contamination with radiogenic nuclides, in combination with the influence of the crystals surface roughness. Nuclide decays near the crystal surface may lead to partial energy deposition inside the detector, potentially causing MeV energy events to influence the background in the keV energy range. Since default Geant4 is not capable of simulating a rough surface, a new extension for simulating a rough surface is developed and the impact of different roughness configurations is studied.

Originalsprache	Englisch
Aufsatznummer	092
Fachzeitschrift	Proceedings of Science
Jahrgang	441
Publikationsstatus	Veröffentlicht - 22 März 2024
Veranstaltung	18th International Conference on Topics in Astroparticle and Underground Physics, TAUP 2023 - Vienna, Österreich Dauer: 28 Aug. 2023 → 1 Sept. 2023

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@article{c952fadd03fe49328c3493176396e610,

title = "Geant4 simulations of the influence of contamination and roughness of the detector surface on background spectra in CRESST",

abstract = "CRESST is an experiment for the direct detection of dark matter, capable of detecting nuclear recoils down to 10 eV, which results in an impressive sensitivity for sub-GeV dark matter particles. For a better understanding of the measured background a background model is developed. The background components are considered via Geant4 simulations. At the current state, the CRESST background model only considers bulk contaminations and treats all detector surfaces as perfect plains. This contribution presents potential effects of a surface contamination with radiogenic nuclides, in combination with the influence of the crystals surface roughness. Nuclide decays near the crystal surface may lead to partial energy deposition inside the detector, potentially causing MeV energy events to influence the background in the keV energy range. Since default Geant4 is not capable of simulating a rough surface, a new extension for simulating a rough surface is developed and the impact of different roughness configurations is studied.",

author = "{CRESST Collaboration} and C. Gr{\"u}ner and G. Angloher and S. Banik and G. Benato and A. Bento and A. Bertolini and R. Breier and C. Bucci and J. Burkhart and L. Canonica and A. D'Addabbo and {Di Lorenzo}, S. and L. Einfalt and A. Erb and Feilitzsch, {F. V.} and S. Fichtinger and D. Fuchs and A. Garai and Ghete, {V. M.} and P. Gorla and Guillaumon, {P. V.} and S. Gupta and D. Hauff and M. Je{\v s}kovsk{\'y} and J. Jochum and M. Kaznacheeva and A. Kinast and H. Kluck and H. Kraus and S. Kuckuk and A. Langenk{\"a}mper and M. Mancuso and L. Marini and B. Mauri and L. Meyer and V. Mokina and M. Olmi and T. Ortmann and C. Pagliarone and L. Pattavina and F. Petricca and W. Potzel and P. Povinec and F. Pr{\"o}bst and F. Pucci and F. Reindl and J. Rothe and K. Sch{\"a}ffner and J. Schieck and S. Sch{\"o}nert",

note = "Publisher Copyright: {\textcopyright} Copyright owned by the author(s) under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (CC BY-NC-ND 4.0).; 18th International Conference on Topics in Astroparticle and Underground Physics, TAUP 2023 ; Conference date: 28-08-2023 Through 01-09-2023",

year = "2024",

month = mar,

day = "22",

language = "English",

volume = "441",

journal = "Proceedings of Science",

issn = "1824-8039",

publisher = "Sissa Medialab Srl",

}

TY - JOUR

T1 - Geant4 simulations of the influence of contamination and roughness of the detector surface on background spectra in CRESST

AU - CRESST Collaboration

AU - Grüner, C.

AU - Angloher, G.

AU - Banik, S.

AU - Benato, G.

AU - Bento, A.

AU - Bertolini, A.

AU - Breier, R.

AU - Bucci, C.

AU - Burkhart, J.

AU - Canonica, L.

AU - D'Addabbo, A.

AU - Di Lorenzo, S.

AU - Einfalt, L.

AU - Erb, A.

AU - Feilitzsch, F. V.

AU - Fichtinger, S.

AU - Fuchs, D.

AU - Garai, A.

AU - Ghete, V. M.

AU - Gorla, P.

AU - Guillaumon, P. V.

AU - Gupta, S.

AU - Hauff, D.

AU - Ješkovský, M.

AU - Jochum, J.

AU - Kaznacheeva, M.

AU - Kinast, A.

AU - Kluck, H.

AU - Kraus, H.

AU - Kuckuk, S.

AU - Langenkämper, A.

AU - Mancuso, M.

AU - Marini, L.

AU - Mauri, B.

AU - Meyer, L.

AU - Mokina, V.

AU - Olmi, M.

AU - Ortmann, T.

AU - Pagliarone, C.

AU - Pattavina, L.

AU - Petricca, F.

AU - Potzel, W.

AU - Povinec, P.

AU - Pröbst, F.

AU - Pucci, F.

AU - Reindl, F.

AU - Rothe, J.

AU - Schäffner, K.

AU - Schieck, J.

AU - Schönert, S.

N1 - Publisher Copyright: © Copyright owned by the author(s) under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (CC BY-NC-ND 4.0).

PY - 2024/3/22

Y1 - 2024/3/22

N2 - CRESST is an experiment for the direct detection of dark matter, capable of detecting nuclear recoils down to 10 eV, which results in an impressive sensitivity for sub-GeV dark matter particles. For a better understanding of the measured background a background model is developed. The background components are considered via Geant4 simulations. At the current state, the CRESST background model only considers bulk contaminations and treats all detector surfaces as perfect plains. This contribution presents potential effects of a surface contamination with radiogenic nuclides, in combination with the influence of the crystals surface roughness. Nuclide decays near the crystal surface may lead to partial energy deposition inside the detector, potentially causing MeV energy events to influence the background in the keV energy range. Since default Geant4 is not capable of simulating a rough surface, a new extension for simulating a rough surface is developed and the impact of different roughness configurations is studied.

AB - CRESST is an experiment for the direct detection of dark matter, capable of detecting nuclear recoils down to 10 eV, which results in an impressive sensitivity for sub-GeV dark matter particles. For a better understanding of the measured background a background model is developed. The background components are considered via Geant4 simulations. At the current state, the CRESST background model only considers bulk contaminations and treats all detector surfaces as perfect plains. This contribution presents potential effects of a surface contamination with radiogenic nuclides, in combination with the influence of the crystals surface roughness. Nuclide decays near the crystal surface may lead to partial energy deposition inside the detector, potentially causing MeV energy events to influence the background in the keV energy range. Since default Geant4 is not capable of simulating a rough surface, a new extension for simulating a rough surface is developed and the impact of different roughness configurations is studied.

UR - http://www.scopus.com/inward/record.url?scp=85189204949&partnerID=8YFLogxK

M3 - Conference article

AN - SCOPUS:85189204949

SN - 1824-8039

VL - 441

JO - Proceedings of Science

JF - Proceedings of Science

M1 - 092

T2 - 18th International Conference on Topics in Astroparticle and Underground Physics, TAUP 2023

Y2 - 28 August 2023 through 1 September 2023

ER -

Geant4 simulations of the influence of contamination and roughness of the detector surface on background spectra in CRESST

Abstract

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