Deriving iron contents from past and future Venus surface spectra with new high-temperature laboratory emissivity data

J. Helbert; A. Maturilli; M. D. Dyar; G. Alemanno

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Deriving iron contents from past and future Venus surface spectra with new high-temperature laboratory emissivity data

机译：通过新的高温实验室发射率数据从过去和未来金星表面光谱中衍生铁内容物

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In situ information on the surface composition of Venus is based on measurements of a small number of landing sites. In the laboratory, we measured the emissivity of a range of igneous rocks at temperatures up to 480°C. We show that high-temperature laboratory spectra of basalts are consistent with the only existing multispectral data from the surface of Venus obtained by the photometers on the Venera 9 and 10 landers. We derive the FeO abundances for these landing sites of 12.2 and 9.5 weight %, respectively. From orbit, Venus’ surface is only observable on the nightside through small spectral windows near 1 μm where the CO 2 atmosphere is largely transparent. The new laboratory data show that different rock types can be distinguished using only a small set of spectral bands. Therefore, future orbital spectral observations can provide a much-needed global composition map.

机译：原位信息有关金星表面组成的信息基于少量着陆位点的测量。在实验室中，我们在高达480°C的温度下测量了一系列火成岩的发射率。我们表明玄武岩的高温实验室光谱与来自Venera 9和10次登陆器上的光度计获得的Venus表面的唯一现有的多光谱数据一致。我们分别为这些着陆位点获得了12.2和9.5重量％的Feo丰度。从轨道，金星表面仅在夜间通过小光谱窗口观察到1μm，其中CO 2气氛很大透明。新的实验室数据显示，只有一小组光谱带，可以区分不同的岩石类型。因此，未来的轨道光谱观察可以提供急需的全球成分地图。

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《Science Advances》 |2021年第3期|共9页
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J. Helbert; A. Maturilli; M. D. Dyar; G. Alemanno;
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Deriving iron contents from past and future Venus surface spectra with new high-temperature laboratory emissivity data

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