Capelli, S.S.CapelliBaldazzi, G.G.BaldazziBeretta, M.M.BerettaBonvicini, V.V.BonviciniCAMPANA, RICCARDORICCARDOCAMPANAEVANGELISTA, YURIYURIEVANGELISTAFasoli, M.M.FasoliFEROCI, MARCOMARCOFEROCIFUSCHINO, FABIOFABIOFUSCHINOGironi, L.L.GironiLABANTI, CLAUDIOCLAUDIOLABANTIMarisaldi, M.M.MarisaldiPrevitali, E.E.PrevitaliRashevskaya, I.I.RashevskayaRachevski, A.A.RachevskiRignanese, L.L.RignaneseSisti, M.M.SistiVacchi, A.A.VacchiVedda, A.A.VeddaZampa, G.G.ZampaZampa, N.N.ZampaZuffa, M.M.Zuffa2020-08-252020-08-2520170168-9002http://hdl.handle.net/20.500.12386/26809FLARES is an innovative project in the field of rare events searches, such as the search for the neutrinoless double beta decay. It aims at demonstrating the high potential of a technique that combines ultra-pure scintillating crystals with arrays of high performance silicon drift detectors, operated at about 120 K, to reach a 1% level energy resolution. The proposed technique will combine in a single device all the demanding features needed by an ideal experiment looking for rare events. The performance of a first production of matrices of silicon drift detectors as well as first measurements of the low temperature light yield of a selection of high purity scintillating crystals will be presented and discussed.STAMPAenArticle10.1016/j.nima.2016.04.0822-s2.0-84965144275000394556300082https://www.sciencedirect.com/science/article/pii/S0168900216302996?via%3Dihub2017NIMPA.845..334CFIS/05 - ASTRONOMIA E ASTROFISICA