SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3103326573> ?p ?o ?g. }

Showing items 1 to 100 of ±175 with 100 items per page.

W3103326573 endingPage "A29" @default.
W3103326573 startingPage "A29" @default.
W3103326573 abstract "Context. Snowlines are key ingredients for planet formation. Providing observational constraints on the locations of the major snowlines is therefore crucial for fully connecting planet compositions to their formation mechanism. Unfortunately, the most important snowline, that of water, is very difficult to observe directly in protoplanetary disks because of the close proximity of this snowline to the central star. Aims. Based on chemical considerations, HCO + is predicted to be a good chemical tracer of the water snowline because it is particularly abundant in dense clouds when water is frozen out. This work aims to map the optically thin isotopolog H 13 CO + toward the envelope of the low-mass protostar NGC 1333-IRAS2A, where the snowline is at a greater distance from the star than in disks. Comparison with previous observations of H 2 18 O show whether H 13 CO + is indeed a good tracer of the water snowline. Methods. NGC 1333-IRAS2A was observed using the NOrthern Extended Millimeter Array (NOEMA) at ~0.′′9 resolution, targeting the H 13 CO + J = 3 − 2 transition at 260.255 GHz. The integrated emission profile was analyzed using 1D radiative transfer modeling of a spherical envelope with a parametrized abundance profile for H 13 CO + . This profile was validated with a full chemical model. Results. The H 13 CO + emission peaks ~ 2′′ northeast of the continuum peak, whereas H 2 18 O shows compact emission on source. Quantitative modeling shows that a decrease in H 13 CO + abundance by at least a factor of six is needed in the inner ~360 AU to reproduce the observed emission profile. Chemical modeling indeed predicts a steep increase in HCO + just outside the water snowline; the 50% decrease in gaseous H 2 O at the snowline is not enough to allow HCO + to be abundant. This places the water snowline at 225 AU, further away from the star than expected based on the 1D envelope temperature structure for NGC 1333-IRAS2A. In contrast, DCO + observations show that the CO snowline is at the expected location, making an outburst scenario unlikely. Conclusions. The spatial anticorrelation of H 13 CO + and H 2 18 O emission provide proof of concept that H 13 CO + can be used as a tracer of the water snowline." @default.
W3103326573 created "2020-11-23" @default.
W3103326573 creator A5004002392 @default.
W3103326573 creator A5013288409 @default.
W3103326573 creator A5013404053 @default.
W3103326573 creator A5016952427 @default.
W3103326573 creator A5022579238 @default.
W3103326573 creator A5048537056 @default.
W3103326573 creator A5057690850 @default.
W3103326573 creator A5086018183 @default.
W3103326573 date "2018-05-01" @default.
W3103326573 modified "2023-10-18" @default.
W3103326573 title "Imaging the water snowline in a protostellar envelope with H<sup>13</sup>CO<sup>+</sup>" @default.
W3103326573 cites W1530630869 @default.
W3103326573 cites W1796837729 @default.
W3103326573 cites W1922018070 @default.
W3103326573 cites W1965459923 @default.
W3103326573 cites W1972568324 @default.
W3103326573 cites W1979340021 @default.
W3103326573 cites W1986202073 @default.
W3103326573 cites W1998845096 @default.
W3103326573 cites W2000702886 @default.
W3103326573 cites W2003496651 @default.
W3103326573 cites W2005217267 @default.
W3103326573 cites W2016509836 @default.
W3103326573 cites W2024016948 @default.
W3103326573 cites W2036156692 @default.
W3103326573 cites W2039296858 @default.
W3103326573 cites W2041330083 @default.
W3103326573 cites W2045954828 @default.
W3103326573 cites W2061402937 @default.
W3103326573 cites W2066497912 @default.
W3103326573 cites W2069368897 @default.
W3103326573 cites W2078495797 @default.
W3103326573 cites W2085253913 @default.
W3103326573 cites W2085693866 @default.
W3103326573 cites W2092142959 @default.
W3103326573 cites W2093930401 @default.
W3103326573 cites W2095893663 @default.
W3103326573 cites W2096249383 @default.
W3103326573 cites W2096604763 @default.
W3103326573 cites W2096645341 @default.
W3103326573 cites W2105958017 @default.
W3103326573 cites W2127547331 @default.
W3103326573 cites W2131678940 @default.
W3103326573 cites W2156666917 @default.
W3103326573 cites W2159951727 @default.
W3103326573 cites W2168409987 @default.
W3103326573 cites W2271355965 @default.
W3103326573 cites W2290235563 @default.
W3103326573 cites W2290420081 @default.
W3103326573 cites W2337947052 @default.
W3103326573 cites W2378167588 @default.
W3103326573 cites W2471902705 @default.
W3103326573 cites W2518835803 @default.
W3103326573 cites W2540148782 @default.
W3103326573 cites W2566915597 @default.
W3103326573 cites W2586529696 @default.
W3103326573 cites W2611880848 @default.
W3103326573 cites W3098190731 @default.
W3103326573 cites W3099567379 @default.
W3103326573 cites W3099687850 @default.
W3103326573 cites W3099945173 @default.
W3103326573 cites W3100704434 @default.
W3103326573 cites W3101042108 @default.
W3103326573 cites W3101068406 @default.
W3103326573 cites W3102040082 @default.
W3103326573 cites W3102094901 @default.
W3103326573 cites W3103117039 @default.
W3103326573 cites W3103791584 @default.
W3103326573 cites W3104566835 @default.
W3103326573 cites W3105026852 @default.
W3103326573 cites W3105866347 @default.
W3103326573 cites W3105967705 @default.
W3103326573 cites W3124751382 @default.
W3103326573 cites W4213167777 @default.
W3103326573 cites W4247735440 @default.
W3103326573 cites W4293763433 @default.
W3103326573 cites W4294939445 @default.
W3103326573 cites W4297820697 @default.
W3103326573 cites W4298172620 @default.
W3103326573 cites W4299856872 @default.
W3103326573 cites W4300572365 @default.
W3103326573 doi "https://doi.org/10.1051/0004-6361/201731656" @default.
W3103326573 hasPublicationYear "2018" @default.
W3103326573 type Work @default.
W3103326573 sameAs 3103326573 @default.
W3103326573 citedByCount "21" @default.
W3103326573 countsByYear W31033265732018 @default.
W3103326573 countsByYear W31033265732019 @default.
W3103326573 countsByYear W31033265732020 @default.
W3103326573 countsByYear W31033265732021 @default.
W3103326573 countsByYear W31033265732022 @default.
W3103326573 countsByYear W31033265732023 @default.
W3103326573 crossrefType "journal-article" @default.
W3103326573 hasAuthorship W3103326573A5004002392 @default.
W3103326573 hasAuthorship W3103326573A5013288409 @default.
W3103326573 hasAuthorship W3103326573A5013404053 @default.