Operation of an InGrid based X-ray detector at the CAST experiment

The CERN Axion Solar Telescope (CAST) is searching for axions and other particles which could be candidates for DarkMatter and even Dark Energy. These particles could be produced in the Sun and detected by a conversion into soft X-ray photons inside a strong magnetic field. In order to increase the...

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Main Authors: Krieger Christoph, Desch Klaus, Kaminski Jochen, Lupberger Michael
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:EPJ Web of Conferences
Online Access:https://doi.org/10.1051/epjconf/201817402008
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spelling doaj-3ff87d4aae304191a39a259762b3dddb2021-08-02T05:16:48ZengEDP SciencesEPJ Web of Conferences2100-014X2018-01-011740200810.1051/epjconf/201817402008epjconf_mpgd2018_02008Operation of an InGrid based X-ray detector at the CAST experimentKrieger ChristophDesch KlausKaminski JochenLupberger MichaelThe CERN Axion Solar Telescope (CAST) is searching for axions and other particles which could be candidates for DarkMatter and even Dark Energy. These particles could be produced in the Sun and detected by a conversion into soft X-ray photons inside a strong magnetic field. In order to increase the sensitivity for physics beyond the Standard Model, detectors with a threshold below 1 keV as well as efficient background rejection methods are required to compensate for low energies and weak couplings resulting in very low detection rates. Those criteria are fulfilled by a detector utilizing the combination of a pixelized readout chip with an integrated Micromegas stage. These InGrid (Integrated Grid) devices can be build by photolithographic postprocessing techniques, resulting in a close to perfect match of grid and pixels facilitating the detection of single electrons on the chip surface. The high spatial resolution allows for energy determination by simple electron counting as well as for an event-shape based analysis as background rejection method. Tests at an X-ray generator revealed the energy threshold of an InGrid based X-ray detector to be well below the carbon Kα line at 277 eV. After the successful demonstration of the detectors key features, the detector was mounted at one of CAST’s four detector stations behind an X-ray telescope in 2014. After several months of successful operation without any detector related interruptions, the InGrid based X-ray detector continues data taking at CAST in 2015. During operation at the experiment, background rates in the order of 10−5 keV−1 cm−2 s−1 have been achieved by application of a likelihood based method discriminating the non-photon background originating mostly from cosmic rays. For continued operation in 2016, an upgraded InGrid based detector is to be installed among other improvements including decoupling and sampling of the signal induced on the grid as well as a veto scintillator to further lower the observed background rates and improving sensitivity.https://doi.org/10.1051/epjconf/201817402008
collection DOAJ
language English
format Article
sources DOAJ
author Krieger Christoph
Desch Klaus
Kaminski Jochen
Lupberger Michael
spellingShingle Krieger Christoph
Desch Klaus
Kaminski Jochen
Lupberger Michael
Operation of an InGrid based X-ray detector at the CAST experiment
EPJ Web of Conferences
author_facet Krieger Christoph
Desch Klaus
Kaminski Jochen
Lupberger Michael
author_sort Krieger Christoph
title Operation of an InGrid based X-ray detector at the CAST experiment
title_short Operation of an InGrid based X-ray detector at the CAST experiment
title_full Operation of an InGrid based X-ray detector at the CAST experiment
title_fullStr Operation of an InGrid based X-ray detector at the CAST experiment
title_full_unstemmed Operation of an InGrid based X-ray detector at the CAST experiment
title_sort operation of an ingrid based x-ray detector at the cast experiment
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2018-01-01
description The CERN Axion Solar Telescope (CAST) is searching for axions and other particles which could be candidates for DarkMatter and even Dark Energy. These particles could be produced in the Sun and detected by a conversion into soft X-ray photons inside a strong magnetic field. In order to increase the sensitivity for physics beyond the Standard Model, detectors with a threshold below 1 keV as well as efficient background rejection methods are required to compensate for low energies and weak couplings resulting in very low detection rates. Those criteria are fulfilled by a detector utilizing the combination of a pixelized readout chip with an integrated Micromegas stage. These InGrid (Integrated Grid) devices can be build by photolithographic postprocessing techniques, resulting in a close to perfect match of grid and pixels facilitating the detection of single electrons on the chip surface. The high spatial resolution allows for energy determination by simple electron counting as well as for an event-shape based analysis as background rejection method. Tests at an X-ray generator revealed the energy threshold of an InGrid based X-ray detector to be well below the carbon Kα line at 277 eV. After the successful demonstration of the detectors key features, the detector was mounted at one of CAST’s four detector stations behind an X-ray telescope in 2014. After several months of successful operation without any detector related interruptions, the InGrid based X-ray detector continues data taking at CAST in 2015. During operation at the experiment, background rates in the order of 10−5 keV−1 cm−2 s−1 have been achieved by application of a likelihood based method discriminating the non-photon background originating mostly from cosmic rays. For continued operation in 2016, an upgraded InGrid based detector is to be installed among other improvements including decoupling and sampling of the signal induced on the grid as well as a veto scintillator to further lower the observed background rates and improving sensitivity.
url https://doi.org/10.1051/epjconf/201817402008
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