日本地球惑星科学連合2021年大会

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セッション記号 P (宇宙惑星科学) » P-PS 惑星科学

[P-PS02] Recent advances of Venus science and coming decades

2021年6月3日(木) 13:45 〜 15:15 Ch.02 (Zoom会場02)

コンビーナ:佐藤 毅彦(宇宙航空研究開発機構・宇宙科学研究本部)、Thomas Widemann(Observatoire de Paris)、Kevin McGouldrick(University of Colorado Boulder)、佐川 英夫(京都産業大学)、座長:佐川 英夫(京都産業大学)

13:50 〜 14:05

[PPS02-14] Spatial distribution of HCl abundance at the cloud top of Venus retrieved from IRTF/iSHELL spectra

*佐藤 隆雄1、佐川 英夫2 (1.北海道情報大学、2.京都産業大学)

キーワード:金星、大気、HCl、地上観測、放射伝達

The atmosphere of Venus can be divided into three altitudinal regions with different chemical conditions. High temperature and pressure and the absence of effective photolysis processes are dominant in the lower atmosphere up to 60 km where solar radiation longer than UV can reach. The middle atmosphere between 60 and 110 km is controlled by photochemistry driven by solar UV radiation. In the upper atmosphere above 110 km, dissociation, ionization, and ionospheric reactions are important processes.
HCl is the primary chlorine reservoir in the Venus atmosphere bellow 110 km. Highly reactive chlorine species (ClOx) is produced by solar UV photolysis of HCl and has been proposed to play an important role in catalysis of CO and O recombination to CO2, thereby stabilizing the CO2 atmosphere. Chlorine chemistry is also linked to sulfur chemistry and its understanding is necessary to explain the observed vertical distribution of SO2.
Interestingly, there is a large inconsistency between the HCl abundances measured by spacecraft and ground-based telescopes. The SOIR instrument onboard Venus Express measured its abundance as less than ~50 ppb at the cloud top (~70 km) increasing to 1 ppm in the upper atmosphere (~110 km). Such a vertical trend conflicts with the vertically constant profile (up to ~80 km) reported by sub-mm ground-based observations. Near-infrared ground-based observations also showed the HCl abundance at the cloud top as ~500 ppb, which are nearly one order of magnitude larger than the SOIR results. The reason for this inconsistency has not been understood yet.
In order to re-examine HCl abundance at the cloud top, we carried out a high-resolution spectroscopy of Venus’ dayside at wavelengths of 3.580-3.934 μm with IRTF/iSHELL on August 5-7, 2018 and August 18-20, 2020 (UT). Taking the full advantages of its high spectral resolution of R ~ 75,000, iSHELL resolved individual HCl lines with sufficient separation from terrestrial lines. In this presentation, we will show spatial distribution of HCl abundance at the cloud top, retrieved from processed spectra and compare them with previous studies.