CODELLA, CLAUDIOCLAUDIOCODELLACeccarelli, C.C.CeccarelliBianchi, E.E.BianchiPODIO, LINDALINDAPODIOBachiller, R.R.BachillerLefloch, B.B.LeflochFontani, F.F.FontaniTaquet, V.V.TaquetTesti, L.L.Testi2020-09-142020-09-1420160035-8711http://hdl.handle.net/20.500.12386/27361In the context of the ASAI (Astrochemical Surveys At IRAM) project, we carried out an unbiased spectral survey in the millimetre window towards the well known low-mass Class I source SVS13-A. The high sensitivity reached (3-12 mK) allowed us to detect at least six HDO broad (full width at half-maximum ∼4-5 km s<SUP>-1</SUP>) emission lines with upper level energies up to E<SUB>u</SUB> = 837 K. A non-local thermodynamic equilibrium Large Velocity Gradient (LVG) analysis implies the presence of very hot (150-260 K) and dense (≥3 × 10<SUP>7</SUP> cm<SUP>-3</SUP>) gas inside a small radius (∼25 au) around the star, supporting, for the first time, the occurrence of a hot corino around a Class I protostar. The temperature is higher than expected for water molecules are sublimated from the icy dust mantles (∼100 K). Although we cannot exclude we are observing the effects of shocks and/or winds at such small scales, this could imply that the observed HDO emission is tracing the water abundance jump expected at temperatures ∼220-250 K, when the activation barrier of the gas phase reactions leading to the formation of water can be overcome. We derive X(HDO) ∼ 3 × 10<SUP>-6</SUP>, and a H<SUB>2</SUB>O deuteration ≥1.5 × 10<SUP>-2</SUP>, suggesting that water deuteration does not decrease as the protostar evolves from the Class 0 to the Class I stage.STAMPAenArticle10.1093/mnrasl/slw1272-s2.0-84988606111000383516700016https://academic.oup.com/mnrasl/article/462/1/L75/25896762016MNRAS.462L..75CFIS/05 - ASTRONOMIA E ASTROFISICA