Astrophys. J., 792, L5 (2014/September-1)
High D2O/HDO ratio in the inner regions of the low-mass protostar NGC 1333 IRAS2A.
COUTENS A., JORGENSEN J.K., PERSSON M.V., VAN DISHOECK E.F., VASTEL C. and TAQUET V.
Abstract (from CDS):
Water plays a crucial role both in the interstellar medium and on Earth. To constrain its formation mechanisms and its evolution through the star formation process, the determination of the water deuterium fractionation ratios is particularly suitable. Previous studies derived HDO/H2 O ratios in the warm inner regions of low-mass protostars. We here report a detection of the D2O 1_1, 0–10, 1_transition toward the low-mass protostar NGC 1333 IRAS2A with the Plateau de Bure interferometer: this represents the first interferometric detection of D2O–and only the second solar-type protostar for which this isotopologue is detected. Using the observations of the HDO 5_4, 2–63, 3_transition simultaneously detected and three other HDO lines previously observed, we show that the HDO line fluxes are well reproduced with a single excitation temperature of 218±21 K and a source size of ∼0.''5. The D2O/HDO ratio is ~(1.2±0.5)x10–2, while the use of previous H218O observations give an HDO/H2O ratio of ~(1.7±0.8)x10–3, i.e., a factor of seven lower than the D2O/HDO ratio. These results contradict the predictions of current grain surface chemical models and indicate that either the surface deuteration processes are poorly understood or that both sublimation of grain mantles and water formation at high temperatures ( ≳ 230 K) take place in the inner regions of this source. In the second scenario, the thermal desorption of the grain mantles would explain the high D2O/HDO ratio, while water formation at high temperature would explain significant extra production of H2 O leading to a decrease of the HDO/H2O ratio.
astrochemistry - ISM: individual: NGC 1333 IRAS2A - ISM: molecules - stars: protostars
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