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W2994850650 startingPage "114" @default.
W2994850650 abstract "The metallicity structure of the Milky Way disk stems from the chemodynamical evolutionary history of the Galaxy. We use the National Radio Astronomy Observatory Karl G. Jansky Very Large Array to observe ∼8–10 GHz hydrogen radio recombination line and radio-continuum emission toward 82 Galactic H ii regions. We use these data to derive the electron temperatures and metallicities for these nebulae. Since collisionally excited lines from metals (e.g., oxygen, nitrogen) are the dominant cooling mechanism in H ii regions, the nebular metallicity can be inferred from the electron temperature. Including previous single-dish studies, there are now 167 nebulae with radio-determined electron temperature and either parallax or kinematic distance determinations. The interferometric electron temperatures are systematically 10% larger than those found in previous single-dish studies, likely due to incorrect data analysis strategies, optical depth effects, and/or the observation of different gas by the interferometer. By combining the interferometer and single-dish samples, we find an oxygen abundance gradient across the Milky Way disk with a slope of −0.052 ± 0.004 dex kpc−1. We also find significant azimuthal structure in the metallicity distribution. The slope of the oxygen gradient varies by a factor of ∼2 when Galactocentric azimuths near ∼30° are compared with those near ∼100°. This azimuthal structure is consistent with simulations of Galactic chemodynamical evolution influenced by spiral arms." @default.
W2994850650 created "2019-12-26" @default.
W2994850650 creator A5028362839 @default.
W2994850650 creator A5051598289 @default.
W2994850650 creator A5068762293 @default.
W2994850650 creator A5080006764 @default.
W2994850650 date "2019-12-16" @default.
W2994850650 modified "2023-10-16" @default.
W2994850650 title "Metallicity Structure in the Milky Way Disk Revealed by Galactic H ii Regions" @default.
W2994850650 cites W1526613491 @default.
W2994850650 cites W1573629908 @default.
W2994850650 cites W1766720094 @default.
W2994850650 cites W1967609293 @default.
W2994850650 cites W1977440267 @default.
W2994850650 cites W1980527999 @default.
W2994850650 cites W1980621150 @default.
W2994850650 cites W1988536102 @default.
W2994850650 cites W1989282130 @default.
W2994850650 cites W1993853808 @default.
W2994850650 cites W1996205326 @default.
W2994850650 cites W1997266991 @default.
W2994850650 cites W2001977925 @default.
W2994850650 cites W2005585394 @default.
W2994850650 cites W2011301426 @default.
W2994850650 cites W2011974060 @default.
W2994850650 cites W2017668262 @default.
W2994850650 cites W2017721755 @default.
W2994850650 cites W2021589901 @default.
W2994850650 cites W2024186182 @default.
W2994850650 cites W2024487537 @default.
W2994850650 cites W2033950450 @default.
W2994850650 cites W2039960576 @default.
W2994850650 cites W2046202567 @default.
W2994850650 cites W2053326823 @default.
W2994850650 cites W2055674375 @default.
W2994850650 cites W2066481832 @default.
W2994850650 cites W2067276206 @default.
W2994850650 cites W2073918919 @default.
W2994850650 cites W2084043402 @default.
W2994850650 cites W2086262162 @default.
W2994850650 cites W2092830021 @default.
W2994850650 cites W2095188219 @default.
W2994850650 cites W2096895051 @default.
W2994850650 cites W2100088326 @default.
W2994850650 cites W2107455107 @default.
W2994850650 cites W2121659150 @default.
W2994850650 cites W2135625048 @default.
W2994850650 cites W2137188826 @default.
W2994850650 cites W2141776806 @default.
W2994850650 cites W2142824603 @default.
W2994850650 cites W2143192129 @default.
W2994850650 cites W2146292423 @default.
W2994850650 cites W2148165343 @default.
W2994850650 cites W2155138796 @default.
W2994850650 cites W2157008155 @default.
W2994850650 cites W2161137739 @default.
W2994850650 cites W2224968497 @default.
W2994850650 cites W2341676106 @default.
W2994850650 cites W2786569478 @default.
W2994850650 cites W2797843582 @default.
W2994850650 cites W2809706600 @default.
W2994850650 cites W2897098728 @default.
W2994850650 cites W2903770987 @default.
W2994850650 cites W2970565311 @default.
W2994850650 cites W3047753210 @default.
W2994850650 cites W3098359849 @default.
W2994850650 cites W3099833906 @default.
W2994850650 cites W3099896971 @default.
W2994850650 cites W3100767520 @default.
W2994850650 cites W3101463779 @default.
W2994850650 cites W3101464913 @default.
W2994850650 cites W3101523674 @default.
W2994850650 cites W3101680391 @default.
W2994850650 cites W3101976213 @default.
W2994850650 cites W3102087921 @default.
W2994850650 cites W3102147021 @default.
W2994850650 cites W3102194523 @default.
W2994850650 cites W3102479806 @default.
W2994850650 cites W3103246553 @default.
W2994850650 cites W3103440994 @default.
W2994850650 cites W3103472681 @default.
W2994850650 cites W3103709099 @default.
W2994850650 cites W3104054853 @default.
W2994850650 cites W3104549047 @default.
W2994850650 cites W3104621534 @default.
W2994850650 cites W3105180990 @default.
W2994850650 cites W3105532203 @default.
W2994850650 cites W3105646207 @default.
W2994850650 cites W3105690353 @default.
W2994850650 cites W3106181171 @default.
W2994850650 cites W3106459596 @default.
W2994850650 cites W3106543013 @default.
W2994850650 cites W4289259773 @default.
W2994850650 cites W4298857425 @default.
W2994850650 cites W601942803 @default.
W2994850650 cites W3100054404 @default.
W2994850650 doi "https://doi.org/10.3847/1538-4357/ab53d3" @default.
W2994850650 hasPublicationYear "2019" @default.