以高光谱分辨率重新审视高清旋转基态线中木星的氘分数

H. Wiesemeyer, R. Gusten, P. Hartogh, Yoko Okada, O. Ricken, J. Stutzki
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引用次数: 0

摘要

宇宙氘分数由原始核合成设定,并在随后的星际沉积中减少,是将原极星云与恒星形成史联系起来的宝贵诊断工具。然而,在现今的太阳系中,各种载体中的氘分数相差一个数量级以上,反映的是环境条件而不是原极值。后者被认为保留在气态巨行星的大气中,然而从 CH$_3$D/CH$_4$ 对推断出的测定值需要比从 HD/H$_2$ 得出的值更大的分馏修正,后者接近于统一值。由于缺乏光谱分辨能力,平流层发射特征是否会污染在相邻层形成的吸收剖面这一问题从未得到解决。在此,我们报告了利用氘的旋转基态线($J=1-0$)在$处测定侏罗纪氘分数的情况。这种位移归因于压力引起的线偏移,并通过基于最新线剖面参数的专用辐射传输模型进行了再现。利用大气标准模型,我们得到了 $ D/H $,它与最近在土星大气中的测量值以及从太阳风测量和陨石数据中推断出的值相吻合。这一结果表明,所有三个测量值都代表了真正的原太阳D/H分数。作为对我们模型中假设的分层一致性的补充和检验,我们对 CH$_4$ 的纯旋转 $J=6-5$ 线(在振动基态,在 $ mu$m 处)进行了分析。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Revisiting Jupiter's deuterium fraction in the rotational ground-state line of HD at high spectral resolution
The cosmic deuterium fraction, set by primordial nucleosynthesis and diminished by subsequent astration, is a valuable diagnostic tool to link the protosolar nebula to the history of star formation. However, in the present-day Solar System, the deuterium fraction in various carriers varies by more than an order of magnitude and reflects environmental conditions rather than the protosolar value. The latter is believed to be preserved in the atmospheres of the gas giant planets, yet determinations inferred from the CH$_3$D/CH$_4$ pair require a larger fractionation correction than those from HD/H$_2$, which are close to unity. The question of whether a stratospheric emission feature contaminates the absorption profile forming in subjacent layers was never addressed, owing to the lack of spectral resolving power. Here we report on the determination of the Jovian deuterium fraction using the rotational ground-state line of HD ($J=1-0$) at $ Employing the GREAT heterodyne spectrometer on board SOFIA, we detected the HD absorption and, thanks to the high resolving power, a weak stratospheric emission feature underneath; the former is blue-shifted with respect to the latter. The displacement is attributed to a pressure-induced line shift and reproduced by dedicated radiative-transfer modeling based on recent line-profile parameters. Using atmospheric standard models, we obtained $ D/H $, which agrees with a recent measurement in Saturn's atmosphere and with the value inferred from solar-wind measurements and meteoritic data. The result suggests that all three measurements represent bona fide protosolar D/H fractions. As a supplement and test for the consistency of the layering assumed in our model, we provide an analysis of the purely rotational $J=6-5$ line of CH$_4$ (in the vibrational ground state, at $ mu$m).
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