First operation of undoped CsI directly coupled with SiPMs at 77 K
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[1] J. Collar,et al. Response of undoped cryogenic CsI to low-energy nuclear recoils , 2021, Physical Review C.
[2] D. Chernyak,et al. Light yield of cold undoped CsI crystal down to 13 keV and the application of such crystals in neutrino detection , 2020, The European Physical Journal C.
[3] M. Xiaoyan,et al. The DAMA project: Achievements, implications and perspectives , 2020 .
[4] K. S. Hansen,et al. COHERENT Collaboration data release from the first detection of coherent elastic neutrino-nucleus scattering on argon , 2020, 2006.12659.
[5] S. Gundacker,et al. The silicon photomultiplier: fundamentals and applications of a modern solid-state photon detector , 2020, Physics in medicine and biology.
[6] D. Pershey,et al. Prospect of undoped inorganic crystals at 77 Kelvin for low-mass dark matter search at Spallation Neutron Source , 2020, The European Physical Journal C.
[7] P. Privitera,et al. Coherent elastic neutrino-nucleus scattering at the European Spallation Source , 2019, Journal of High Energy Physics.
[8] A. D. Ludovico,et al. The SABRE project and the SABRE Proof-of-Principle , 2018, The European Physical Journal C.
[9] S. Cebrián,et al. Performance of ANAIS-112 experiment after the first year of data taking , 2018, The European Physical Journal C.
[10] A. Mattei,et al. First model independent results from DAMA/LIBRA-phase2 , 2018, Nuclear Physics and Atomic Energy.
[11] K. Fushimi. Low Background Measurement by Means of NaI(Tl) Scintillator—Improvement of Sensitivity for Cosmic Dark Matter— , 2018 .
[12] K. Yorita,et al. Performance of VUV-sensitive MPPC for liquid argon scintillation light , 2016 .
[13] J. Orrell,et al. Coherent neutrino-nucleus scattering detection with a CsI[Na] scintillator at the SNS spallation source , 2014, 1407.7524.
[14] H. Kraus,et al. Luminescence and scintillation properties of CsI: A potential cryogenic scintillator , 2014, 1411.6246.
[15] B. Majorovits,et al. Development of an anti-Compton veto for HPGe detectors operated in liquid argon using silicon photo-multipliers , 2010, 1011.2748.
[16] O. Miranda,et al. Probing new physics with coherent neutrino scattering off nuclei , 2005, hep-ph/0508299.
[17] M. Moszynski,et al. Energy resolution and non-proportionality of the light yield of pure CsI at liquid nitrogen temperatures , 2005 .
[18] R. Firestone,et al. WWW Table of Radioactive Isotopes , 1999 .
[19] J. Karp,et al. Evaluation of moderately cooled pure NaI as a scintillator for position-sensitive PET detectors , 1995, 1995 IEEE Nuclear Science Symposium and Medical Imaging Conference Record.
[20] N. Horwitz,et al. Readout techniques and radiation damage of undoped cesium iodide , 1990 .
[21] R. T. Williams,et al. The self-trapped exciton , 1990 .
[22] J. Campbell,et al. State-of-the-art efficiency determination for a Si(Li) X-ray detector in the 3–40 keV energy range , 1986 .
[23] J. West,et al. The low temperature scintillation response of unactivated sodium iodide to gamma-rays , 1970 .
[24] M. Fontana,et al. Quenched-in Photoluminescent Color Centers in NaI , 1970 .
[25] M. Fontana,et al. Properties of Exciton States in NaI I. The Intrinsic Photoluminescence , 1968 .
[26] R. P. Scharenberg,et al. Fast Sodium Iodide Spectrometer and Its Application to Millimicrosecond Time Measurement , 1958 .