The first detection of deuterated water toward extragalactic hot cores with ALMA

M. Sewiło, A. Karska, L. Kristensen, S. Charnley, C.-H. Chen, Joana M. Oliveira, M. Cordiner, J. Wiseman, Á. Sánchez-Monge, J. V. van Loon, R. Indebetouw, P. Schilke, E. Garcia-Berrios
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Abstract

Abstract We discuss the first detection of deuterated water (HDO) in extragalactic hot cores. The HDO 211–212 line has been detected with the Atacama Large Millimeter/submillimeter Array (ALMA) toward hot cores N 105–2 A and 2 B in the N 105 star-forming region in the low-metallicity Large Magellanic Cloud (LMC), the nearest star-forming galaxy. We compared the HDO line luminosity (LHDO) measured toward two hot cores in N 105 to those observed toward a sample of 17 Galactic hot cores and found that the observed values of LHDO for the LMC hot cores fit very well into the LHDO trends with Lbol and metallicity observed toward the Galactic hot cores. Our results indicate that LHDO seems to be largely dependent on the source luminosity, but metallicity also plays a role. We provide a rough estimate of the H2O column density and abundance ranges toward N 105–2 A and 2 B by assuming that HDO/H2O toward the LMC hot cores is the same as that observed in the Milky Way; the obtained values are systematically lower than those measured in the Galactic hot cores. The spatial distribution and velocity structure of the HDO emission in N 105–2 A is consistent with HDO being the product of the low-temperature dust grain chemistry.
首次用ALMA探测到河外热核的氘化水
摘要讨论了首次在河外热核中探测到的氘化水(HDO)。HDO 211-212线是由阿塔卡马大型毫米/亚毫米阵列(ALMA)探测到的,方向是位于低金属丰度大麦哲伦星云(LMC)中n105恒星形成区的n105 - 2 A和2b热核。我们比较了n105中两个热核的HDO线光度(LHDO)与17个银河系热核的观测值,发现LHDO的观测值与观测到的银河系热核的Lbol和金属丰度的LHDO趋势非常吻合。我们的结果表明,LHDO似乎在很大程度上取决于源的光度,但金属丰度也起作用。假设LMC热核的HDO/H2O与银河系的相同,我们对n105 - 2 a和2 B方向的H2O柱密度和丰度范围进行了粗略估计;所获得的数值比在银河系热核中测量到的数值要低。n105 - 2 A地区HDO发射的空间分布和速度结构与低温尘粒化学的产物相一致。
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