SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2128581012> ?p ?o ?g. }

Showing items 1 to 100 of ±137 with 100 items per page.

W2128581012 endingPage "L140" @default.
W2128581012 startingPage "L137" @default.
W2128581012 abstract "We report the discovery of doubly deuterated water (D2O, heavy water) in the interstellar medium. Using the James Clerk Maxwell Telescope and the Caltech Submillimeter Observatory 10 m telescope, we detected the 110-101 transition of para-D2O at 316.7998 GHz in both absorption and emission toward the protostellar binary system IRAS 16293-2422. Assuming that the D2O exists primarily in the warm regions where water ices have been evaporated (i.e., in a hot corino environment), we determine a total column density of N(D2O) of 1.0 × 1013 cm-2 and a fractional abundance of D2O/H2 = 1.7 × 10-10. The derived column density ratios for IRAS 16293-2422 are D2O/HDO = 1.7 × 10-3 and D2O/H2O = 5 × 10-5 for the hot corino gas. Steady state models of water ice formation, either in the gas phase or on grains, predict D2O/HDO ratios that are about 4 times larger than that derived from our observations. For water formation on grain surfaces to be a viable explanation, a larger H2O abundance than that measured in IRAS 16293-2422 is required. Alternatively, the observed D2O/HDO ratio could be indicative of gas-phase water chemistry prior to a chemical steady state being attained, such as would have occurred during the formation of this source. Future observations with the Herschel Space Observatory satellite will be important for settling this issue." @default.
W2128581012 created "2016-06-24" @default.
W2128581012 creator A5009417023 @default.
W2128581012 creator A5010582779 @default.
W2128581012 creator A5047604988 @default.
W2128581012 creator A5051318575 @default.
W2128581012 creator A5061875904 @default.
W2128581012 creator A5068197423 @default.
W2128581012 creator A5080517018 @default.
W2128581012 creator A5091123078 @default.
W2128581012 date "2007-03-21" @default.
W2128581012 modified "2023-09-23" @default.
W2128581012 title "Discovery of Interstellar Heavy Water" @default.
W2128581012 cites W1967763971 @default.
W2128581012 cites W1968777879 @default.
W2128581012 cites W1972716847 @default.
W2128581012 cites W1976296179 @default.
W2128581012 cites W2004002697 @default.
W2128581012 cites W2012600063 @default.
W2128581012 cites W2021162632 @default.
W2128581012 cites W2021459290 @default.
W2128581012 cites W2026193223 @default.
W2128581012 cites W2031706302 @default.
W2128581012 cites W2033697868 @default.
W2128581012 cites W2036550415 @default.
W2128581012 cites W2053200067 @default.
W2128581012 cites W2055530733 @default.
W2128581012 cites W2057686086 @default.
W2128581012 cites W2059624386 @default.
W2128581012 cites W2060601893 @default.
W2128581012 cites W2081623800 @default.
W2128581012 cites W2085059161 @default.
W2128581012 cites W2089737056 @default.
W2128581012 cites W2090057634 @default.
W2128581012 cites W2095820618 @default.
W2128581012 cites W2104382780 @default.
W2128581012 cites W2138468009 @default.
W2128581012 cites W2138788175 @default.
W2128581012 cites W2141099472 @default.
W2128581012 cites W2143416500 @default.
W2128581012 cites W2148289365 @default.
W2128581012 cites W2153232270 @default.
W2128581012 cites W2163613589 @default.
W2128581012 cites W3000746797 @default.
W2128581012 cites W3098107243 @default.
W2128581012 cites W3099535293 @default.
W2128581012 cites W3099814538 @default.
W2128581012 cites W3102373437 @default.
W2128581012 cites W3102874224 @default.
W2128581012 cites W3104158189 @default.
W2128581012 cites W3104784038 @default.
W2128581012 cites W3104812310 @default.
W2128581012 cites W3104885151 @default.
W2128581012 cites W3121393380 @default.
W2128581012 cites W3122140081 @default.
W2128581012 cites W4302575618 @default.
W2128581012 doi "https://doi.org/10.1086/517883" @default.
W2128581012 hasPublicationYear "2007" @default.
W2128581012 type Work @default.
W2128581012 sameAs 2128581012 @default.
W2128581012 citedByCount "79" @default.
W2128581012 countsByYear W21285810122012 @default.
W2128581012 countsByYear W21285810122013 @default.
W2128581012 countsByYear W21285810122014 @default.
W2128581012 countsByYear W21285810122015 @default.
W2128581012 countsByYear W21285810122016 @default.
W2128581012 countsByYear W21285810122017 @default.
W2128581012 countsByYear W21285810122018 @default.
W2128581012 countsByYear W21285810122019 @default.
W2128581012 countsByYear W21285810122020 @default.
W2128581012 countsByYear W21285810122021 @default.
W2128581012 countsByYear W21285810122022 @default.
W2128581012 countsByYear W21285810122023 @default.
W2128581012 crossrefType "journal-article" @default.
W2128581012 hasAuthorship W2128581012A5009417023 @default.
W2128581012 hasAuthorship W2128581012A5010582779 @default.
W2128581012 hasAuthorship W2128581012A5047604988 @default.
W2128581012 hasAuthorship W2128581012A5051318575 @default.
W2128581012 hasAuthorship W2128581012A5061875904 @default.
W2128581012 hasAuthorship W2128581012A5068197423 @default.
W2128581012 hasAuthorship W2128581012A5080517018 @default.
W2128581012 hasAuthorship W2128581012A5091123078 @default.
W2128581012 hasBestOaLocation W21285810121 @default.
W2128581012 hasConcept C121332964 @default.
W2128581012 hasConcept C125857072 @default.
W2128581012 hasConcept C1276947 @default.
W2128581012 hasConcept C150846664 @default.
W2128581012 hasConcept C151465644 @default.
W2128581012 hasConcept C180920033 @default.
W2128581012 hasConcept C184779094 @default.
W2128581012 hasConcept C18797539 @default.
W2128581012 hasConcept C196939603 @default.
W2128581012 hasConcept C2776294576 @default.
W2128581012 hasConcept C44870925 @default.
W2128581012 hasConcept C58364064 @default.
W2128581012 hasConcept C68944897 @default.
W2128581012 hasConcept C86021447 @default.
W2128581012 hasConcept C98444146 @default.