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Recent publications

  • R. Saldanha, R. Thomas, R. H. M. Tsang, A. E. Chavarria, R. Bunker, J. L. Burnett, S. R. Elliott, A. Matalon, P. Mitra, A. Piers, P. Privitera, K. Ramanathan, and R. Smida, “Cosmogenic activation of silicon,” Phys. Rev. D 102 (2020) 102006.
  • A. Aguilar-Arevalo et al. (DAMIC Collaboration), “Constraints on Light Dark Matter Particles Interacting with Electrons from DAMIC at SNOLAB,” Phys. Rev. Lett. 123 (2019) 181802.
  • K. Ramanathan, A. Kavner, A.E. Chavarria, P. Privitera, D. Amidei, T.-L. Chou, A. Matalon, R. Thomas, J. Estrada, J. Tiffenberg, and J. Molina, “Measurement of low energy ionization signals from Compton scattering in a charge-coupled device dark matter detector,” Phys. Rev. D 96 (2017) 042002.
  • F. Izraelevitch, D. Amidei, A. Aprahamian, R. Arcos-Olalla, G. Cancelo, C. Casarella, A.E. Chavarria, P. Collon, J. Estrada, G. Fernández Moroni, Y. Guardincerri, G. Gutiérrez, A. Gyurjinyan, A. Kavner, B. Kilminster, A. Lathrop, J. Liao, Q. Liu, M. López, J. Molina, P. Privitera, M.A. Reyes, V. Scarpine, K. Siegl, M. Smith, S. Strauss, W. Tan, J. Tiffenberg, and L. Villanueva, “A measurement of the ionization efficiency of nuclear recoils in silicon,” J. Instrum. 12 (2017) P06014.
  • A. Aguilar-Arevalo et al. (DAMIC Collaboration), “First Direct-Detection Constraints on eV-Scale Hidden-Photon Dark Matter with DAMIC at SNOLAB,” Phys. Rev. Lett. 118 (2017) 141803.
  • A.E. Chavarria, C. Galbiati, X. Li, and J.A. Rowlands, “A high-resolution CMOS imaging detector for the search of neutrinoless double β decay in 82Se,” J. Instrum. 12 (2017) P03022.
  • B.J. Scholz, A.E. Chavarria, J.I. Collar, P. Privitera, and A.E. Robinson, “Measurement of the low-energy quenching factor in germanium using an 88Y/Be photoneutron source,” Phys. Rev. D 94 (2016) 122003.
  • A.E. Chavarria, J.I. Collar, J.R. Peña, P. Privitera, A.E. Robinson, B. Scholz, C. Sengul, J. Zhou, J. Estrada, F. Izraelevitch, J. Tiffenberg, J.R.T. de Mello Neto, and D. Torres Machado, “Measurement of the ionization produced by sub-keV silicon nuclear recoils in a CCD dark matter detector,” Phys. Rev. D 94 (2016) 082007.
  • A. Aguilar-Arevalo et al. (DAMIC Collaboration), “Search for low-mass WIMPs in a 0.6 kg day exposure of the DAMIC experiment at SNOLAB,” Phys. Rev. D 94 (2016) 082006.
  • A. Aguilar-Arevalo et al. (DAMIC Collaboration), “Measurement of radioactive contamination in the high-resistivity silicon CCDs of the DAMIC experiment,” J. Instrum. 10 (2015) P08014.

Selected publications

  • Borexino Collaboration, “Neutrinos from the primary proton-proton fusion process in the Sun,” Nature 512 (2014) 383.
  • G. Bellini et al. (Borexino Collaboration), “Final results of Borexino Phase-I on low energy solar neutrino spectroscopy,” Phys. Rev. D 89 (2014) 112007.
  • T. Alexander et al. (DarkSide Collaboration), “Light yield in DarkSide-10: A prototype two-phase argon TPC for dark matter searches,” Astropart. Phys. 49 (2013) 44.
  • G. Bellini et al. (Borexino Collaboration), “First evidence of pep solar neutrinos by direct detection in Borexino,” Phys. Rev. Lett. 108 (2012) 051302.
  • G. Bellini et al. (Borexino Collaboration), “Precision Measurement of the 7Be Solar Neutrino Interaction Rate in Borexino,” Phys. Rev. Lett. 107 (2011) 141302.
  • G. Bellini et al. (Borexino Collaboration), “Observation of Geo-Neutrinos,” Phys. Lett. B 687 (2010) 299.
  • G. Bellini et al. (Borexino Collaboration), “Measurement of the solar 8B neutrino rate with a liquid scintillator target and 3 MeV energy threshold in the Borexino detector,” Phys. Rev. D 82 (2010) 033006.