{"id":19,"date":"2012-02-06T18:18:20","date_gmt":"2012-02-06T18:18:20","guid":{"rendered":"http:\/\/blackhole.lngs.infn.it\/darkside\/?page_id=19"},"modified":"2012-02-06T18:18:20","modified_gmt":"2012-02-06T18:18:20","slug":"papers","status":"publish","type":"page","link":"https:\/\/darkside.lngs.infn.it\/?page_id=19","title":{"rendered":"Publications"},"content":{"rendered":"
[ Collaboration Papers<\/a> ] [ Related Papers<\/a> ] [ Conference Proceedings<\/a> ] [ Theses<\/a> ]<\/div>\n
\n

<\/a>Published Papers and Pre-Prints by the DarkSide Collaboration<\/strong>
\nDarkSide Collaboration. “Design and construction of a new detector to measure ultra-low radioactive-isotope contamination of argon”. Journal of Instrumentation<\/em>, 15<\/strong> (2020): P02024<\/a>.\u00a0[\u00a0arXiv: 2001.08106<\/a>\u00a0]
\nDarkSide-50 Collaboration. “Effective field theory interactions for liquid argon target in DarkSide-50 experiment”. Physical Review D<\/em>, 101<\/strong> (2020): 062002<\/a>. [ arXiv: 2202.07794<\/a> ]
\nDarkSide-50 Collaboration. “Measurement of the ion fraction and mobility of 218Po produced in 222Rn decays in liquid argon”. Journal of Instrumentation<\/em>, 14<\/strong> (2019): P11018<\/a>. [ arXiv: 1907.09332<\/a> ]
\nDarkSide Collaboration. “DarkSide-50 532-day Dark Matter Search with Low-Radioactivity Argon”. Physical Review D<\/em>,\u00a098<\/strong> (2018):\u00a0102006<\/a>.\u00a0[\u00a0arXiv: 1802.07198<\/a>\u00a0]
\nDarkSide Collaboration. “Low-mass Dark Matter Search with the DarkSide-50 Experiment”. Physical Review Letters<\/em>,\u00a0121<\/strong> (2018):\u00a0081307<\/a>.\u00a0[\u00a0arXiv: 1802.06994<\/a>\u00a0]
\nDarkSide Collaboration. “Constraints on Sub-GeV Dark Matter-Electron Scattering from the DarkSide-50 Experiment”. Physical Review Letters<\/em>,\u00a0121<\/strong> (2018):\u00a0111303<\/a>.\u00a0[\u00a0arXiv: 1802.06998<\/a>\u00a0]
\nDarkSide Collaboration. “Electroluminescence pulse shape and electron diffusion in liquid argon measured in a dual-phase TPC”. Nuclear Instruments and Methods A<\/em>, 904<\/strong> (2018): 23-34<\/a>. [ arXiv: 1802.01427<\/a> ]
\nDarkSide Collaboration. “DarkSide-20k: A 20 Tonne Two-Phase LAr TPC for Direct Dark Matter Detection at LNGS”. The European Physical Journal Plus<\/em>, 133<\/strong> (2018): 131<\/a> [\u00a0arXiv: 1707.08145<\/a>\u00a0]
\nDarkSide Collaboration. “The Electronics, Trigger and Data Acquisition System for the Liquid Argon Time Projection Chamber of the DarkSide-50 Search for Dark Matter”. Journal of Instrumentation<\/em>, 12<\/strong> (2017): P12011<\/a>.\u00a0[\u00a0arXiv: 1707.09889<\/a>\u00a0]
\nDarkSide Collaboration. “CALIS – a CALibration Insertion System for the DarkSide-50 dark matter search experiment”. Journal of Instrumentation<\/em>, 12<\/strong> (2017): T12004<\/a>.\u00a0[\u00a0arXiv: 1611.02750<\/a>\u00a0]
\nDarkSide Collaboration. “Simulation of argon response and light detection in the DarkSide-50 dual phase TPC”. Journal of Instrumentation<\/em>, 12<\/strong> (2017): P10015<\/a>.\u00a0[\u00a0arXiv: 1707.05630<\/a>\u00a0]
\nDarkSide Collaboration. “Effect of Low Electric Fields on Alpha Scintillation Light Yield in Liquid Argon”. Journal of Instrumentation<\/em>, 12<\/strong> (2017): P01021<\/a>.\u00a0[\u00a0arXiv: 1611.00241<\/a>\u00a0]
\nDarkSide Collaboration. “The Electronics and Data Acquisition System for the DarkSide-50 Veto Detectors”.
\nJournal of Instrumentation<\/em>, 11<\/strong> (2016): P12007<\/a>.\u00a0[ arXiv: 1606.03316<\/a> ]
\nDarkSide Collaboration. “Results from the first use of low radioactivity argon in a dark matter search”.\u00a0Physical Review D,\u00a093<\/strong> (2016):\u00a0081101(R)<\/a>.\u00a0[ arXiv: 1510.00702<\/a> ]
\nDarkSide Collaboration. “The veto system of the DarkSide-50 experiment”.\u00a0Journal of Instrumentation<\/em>, 11<\/strong> (2016): P03016<\/a>. [ arXiv: 1512.07896<\/a> ]
\nP. Agnes et al. “First results from the DarkSide-50\u2005dark matter experiment at Laboratori Nazionali del Gran Sasso”.\u00a0Physics Letters B<\/em>, 743<\/strong> (2015):\u00a0456-466<\/a>. [\u00a0arXiv:1410.0653<\/a>\u00a0]\u00a0Numerical information for Fig. 4: Distribution of the events in the scatter plot of S1 vs. f90<\/sub>\u00a0after all quality and physics cuts<\/a>
\nC. E. Aalseth et al. “The DarkSide Multiton Detector for the Direct Dark Matter Search”.\u00a0Advances in High Energy Physics<\/em>, 2015<\/strong> (2015): 541362<\/a>.
\nT. Alexander et al. “DarkSide search for dark matter”.\u00a0Journal of Instrumentation<\/em>,\u00a08<\/strong>\u00a0(2013): C11021<\/a>.
\nT. Alexander et al. “Light yield in DarkSide-10: A prototype two-phase argon TPC for dark matter searches”.\u00a0Astroparticle Physics<\/em>,\u00a049<\/strong>\u00a0(2013): 44-51<\/a>. [\u00a0arXiv: 1204.6218<\/a>\u00a0]
\nDarkSide Collaboration. “The DarkSide Program at LNGS”. (2011) [\u00a0arXiv: 1109.2979<\/a>\u00a0]
\nDarkSide Collaboration.\u00a0\u201cDArkSide-50 Proposal\u201d. (2008). [\u00a0pdf<\/a>\u00a0]
\n 
\n<\/a>DarkSide-related papers<\/strong>
\nM. Cadeddu et al. “Directional dark matter detection sensitivity of a two-phase liquid argon detector”. Journal of Cosmology and Astroparticle Physics<\/em>, 2019<\/strong> (2019): 014<\/a> [ arXiv: 1704.03741<\/a> ]
\nP. Agnes et al. “Measurement of the the liquid argon energy response to nuclear and electronic recoils”. [ arXiv: 1801.06653<\/a> ]
\nR. Saldanha, L. Grandi, Yann Guardincerri, and T. Wester. “Model Independent Approach to the Single Photoelectron Calibration of Photomultiplier Tubes”. Nuclear Instruments and Methods A<\/em>,\u00a0863<\/strong>\u00a0(2017): 35-46<\/a>. [ arXiv: 1602.03150<\/a> ]
\nS. Westerdale, P.D. Meyers. “Radiogenic neutron yield calculations for low-background experiments”. Nuclear Instruments and Methods A<\/em>,\u00a0875<\/strong>\u00a0(2017): 57-64 <\/a>. [ arXiv: 1702.02465<\/a> ]
\nS. Westerdale et al. “Quenching measurements and modeling of a boron-loaded organic liquid scintillator”. Journal of Instrumentation<\/em>,\u00a012<\/strong>\u00a0(2017): P08002<\/a>. [ arXiv: 1703.07214<\/a> ]
\nJ. Xu et al. “First measurement of surface nuclear recoil background for argon dark matter searches”. Physical Review D<\/em>,\u00a096<\/strong>\u00a0(2017): 061101(R)<\/a>. [ arXiv: 1609.07089<\/a> ]
\nDarkSide Collaboration. “Cryogenic Characterization of FBK RGB-HD SiPMs”. Journal of Instrumentation<\/em>, 12<\/strong> (2017): P09030<\/a>.\u00a0[\u00a0arXiv: 1705.07028<\/a>\u00a0]
\nF. Acerbi et al. “Cryogenic Characterization of the FBK NUV-HD SiPMs”. IEEE Transactions on Electron Devices<\/em>,\u00a064<\/strong>\u00a0(2017): 521-526<\/a>. [ arXiv: 1610.01915<\/a> ]
\nD. Franco et al. “Solar neutrino detection in a large volume double-phase liquid argon experiment”. Journal of Cosmology and Astroparticle Physics<\/em>,\u00a01608<\/strong>\u00a0(2016): 017<\/a>. [ arXiv: 1510.04196<\/a> ]
\nS. Westerdale, E. Shields, and F. Calaprice. “A Prototype Neutron Veto for Dark Matter Detectors”. Astroparticle Physics<\/em>,\u00a079<\/strong>\u00a0(2016): 10-22<\/a>. [ arXiv: 1509.02782<\/a> ]
\nE. Segreto. “Evidence of delayed light emission of TetraPhenyl Butadiene excited by liquid Argon scintillation light”. Phys. Rev. C<\/em>,\u00a091<\/strong>\u00a0(2015): 1035503<\/a>. [ arXiv: 1411.4524<\/a> ]
\nJ. Xu et al. “A study of the trace 39Ar content in argon from deep underground sources”.\u00a0Astroparticle Physics<\/em>,\u00a066<\/strong>\u00a0(2015): 53-60<\/a>. [\u00a0arXiv: 1204.6011<\/a>\u00a0]
\nA. Empl and E. Hungerford. “A FLUKA Study of \u03b2-delayed Neutron Emission for the Ton-size DarkSide Dark Matter Detector”. (2014) [ arXiv: 1407.6628<\/a> ]
\nH.O. Back et al. “First Large Scale Production of Low Radioactivity Argon From Underground Sources”. (2012) [ arXiv: 1204.6024<\/a> ]
\nH.O. Back et al. “First Commissioning of a Cryogenic Distillation Column for Low Radioactivity Underground Argon”. (2012) [ arXiv: 1204.6061<\/a> ]
\nA. Wright, P. Mosteiro, B. Loer and F. Calaprice. \u201cA Highly Efficient Neutron Veto for Dark Matter Experiments\u201d.\u00a0Nuclear Instruments and Methods A<\/em>, 644 1<\/strong> (2011): 18-26<\/a>. [ arXiv: 1010.3609<\/a> ]
\nD. Acosta-Kane et al. \u201cDiscovery of underground argon with low level of radioactive 39Ar and possible applications to WIMP dark matter detectors\u201d.\u00a0Nuclear Instruments and Methods A<\/em>, 587 1<\/strong> (2008): 46-51<\/a>.
\n 
\n<\/a>Conference Proceedings by the DarkSide Collaboration<\/strong>
\nS. Davini, “The DarkSide awakens”<\/a>. Presented at TAUP 2015<\/a>.
\nS. Westerdale, “The DarkSide-50 outer detectors”<\/a>. Presented at TAUP 2015<\/a>.
\nL. Marini, “Current status of the dark matter experiment DarkSide-50”<\/a>. Presented at IFAE 2015<\/a>.
\nD. D’Angelo, “DarkSide50 results from first argon run”<\/a>. Presented at PANIC 14<\/a>.\u00a0[\u00a0arXiv: 1501.03541<\/a> ]
\nS. Davini, “A first walk on the DarkSide”<\/a>. Presented at ICHEP 2014<\/a>.
\nL. Pagani, “The DarkSide veto: muon and neutron detectors”<\/a>. Presented at IFAE 2014<\/a>.
\nP. Meyers, “DarkSide-50: A WIMP Search with a Two-phase Argon TPC”. Physics Procedia<\/em>, 61<\/strong> (2015): 124-129<\/a>.\u00a0Presented at TAUP 2013<\/a>.
\nS. Davini, “Enter the Dark Side”. Nuclear Instruments and Methods A<\/em>, 742<\/strong> (2014): 183-186<\/a>. Presented at RICAP 13<\/a>.
\nL. Pagani, D. D’Angelo and S. Davini, “Active Neutron Detector for direct Dark Matter searches with the DarkSide-50 experiment at Gran Sasso”<\/a>. Presented at EPS-HEP 2013<\/a>.
\n 
\n<\/a>DarkSide-Related Theses<\/strong>
\nWatson, A. “Transverse Position Reconstruction in a Liquid Argon Time Projection Chamber using Principal Component Analysis and Multi-Dimensional Fitting”<\/a>. (2017) (English)
\nSanford, C. “Alphas and Surface Backgrounds in Liquid Argon Dark Matter Detectors”<\/a>.Ph.D. Thesis. (2017) (English)
\nPagani, L. “Direct dark matter detection with the DarkSide-50 experiment”<\/a>.Ph.D. Thesis. (2017) (English)
\nAgnes, P. “Direct Search for Dark Matter with the DarkSide Experiment”<\/a>.Ph.D. Thesis. (2016) (English)
\nWesterdale, S. “A Study of Nuclear Recoil Backgrounds in Dark Matter Detectors”<\/a>.Ph.D. Thesis. (2016) (English)
\nFan, A. “Results from the DarkSide-50 Dark Matter Experiment”<\/a>.Ph.D. Thesis. (2016) (English)
\nBrodsky, J. “xy Position Reconstruction in DarkSide-50”<\/a>.Ph.D. Thesis. (2015) (English)
\nCao, H. “A Study of Nuclear Recoils in Liquid Argon Time Projection Chamber for the Direct Detection of WIMP Dark Matter”<\/a>.Ph.D. Thesis. (2014) (English)
\nSbraccia, F. “Characterization of an electronic front-end\u00a0for Dark Matter related signals\u00a0conditioning”<\/a>. Undergraduate Thesis. (2014) (English)
\nCrippa, L. “Caratterizzazione del Rivelatore di Neutroni per la Rivelazione Diretta di WIMPs con DarkSide”<\/a>. Master’s Thesis. (2013) (Italian)
\nMarini, L. “Dark Matter Direct Detection with DarkSide-50: Analysis of Early Data”<\/a>.Master’s Thesis. (2013) (English)
\nBossa, M. “Studio della rivelazione di materia oscura mediante apparati criogenici per la rivelazione diretta: l’esperimento DarkSide”<\/a>. Master’s Thesis. (2012) (Italian)
\nLove, C. E. “Design and Analysis for the DarkSide-10 Two-Phase Argon Time Projection Chamber”<\/a>. Ph.D. Thesis. (2013) (English)
\nPagani, L. “Rivelazione diretta di materia oscura con DarkSide: sviluppo, installazione e collaudo del rivelatore di neutroni”<\/a>. Master’s Thesis. (2013) (Italian)
\nPassadore, S. “Discriminazione degli Impulsi di Segnali e di Fondo Nell’Esperimento di Materia Oscura DarkSide-50”<\/a>. Undergraduate Thesis. (2012) (Italian)
\nLoer, B. M. “Towards a Depleted Argon Time Projection Chamber WIMP Search: DarkSide Prototype Analysis and Predicted Sensitivity”<\/a>. Ph.D. Thesis. (2011) (English)
\nFan, A. “First Data from the Second Iteration\u00a0of the DarkSide 10 kg Detector”<\/a>. Undergraduate Thesis. (2011) (English)<\/p>\n","protected":false},"excerpt":{"rendered":"

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