Measurements of Titan’s Stratospheric Winds during the 2009 Equinox with the eSMA

IF 3.8 Q2 ASTRONOMY & ASTROPHYSICS

The Planetary Science Journal Pub Date : 2024-04-12 DOI:10.3847/psj/ad3355

Siobhan Light, Mark Gurwell, Alexander Thelen, Nicholas A Lombardo, Conor Nixon

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引用次数: 0

Abstract

Saturn’s moon Titan possesses stratospheric zonal winds that places it among a sparse class of planetary bodies known to have superrotation in their atmospheres. Few measurements have been made of these speeds in the upper stratosphere, leaving their seasonal variations still not well understood. We examined observations made with the extended Submillimeter Array in 2009 March (L _s = 355°) and 2010 February (L _s = 5°), shortly before and after Titan's northern spring equinox. Cassini observations and atmospheric models find equinoctial periods to be especially dynamic. Zonal wind calculations, derived from the Doppler frequency shift of CH₃CN near 349.4 GHz, yielded speeds of 128 ± 27 m s⁻¹ in 2009 and 209 ± 48 m s⁻¹ in 2010. We estimated the measured emission to originate from vertical altitudes of

336−88+112

km, equivalent to pressures of

3.8−3.4+19.2

Pa, commensurate with Titan’s upper stratosphere/lower mesosphere. This suggests a possible increase in zonal speeds during this period. The results are then compared to those from previous Cassini-inferred and direct-interferometric observations of winds, as well as general circulation model simulations, to form a more complete picture of the seasonal cycle of stratospheric zonal winds.

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在 2009 年春分期间利用 eSMA 测量土卫六的平流层风

土星的卫星土卫六拥有平流层带状风，这使它成为已知大气层中存在超旋流的行星天体中数量稀少的一类。对平流层上部的这些速度很少进行测量，因此对其季节性变化仍不甚了解。我们研究了 2009 年 3 月（Ls = 355°）和 2010 年 2 月（Ls = 5°），即土卫六北半球春分前后不久用扩展亚毫米波阵列进行的观测。卡西尼观测数据和大气模型发现春分时节特别活跃。根据 349.4 GHz 附近 CH3CN 的多普勒频移进行的带状风计算得出，2009 年的速度为 128 ± 27 m s-1，2010 年为 209 ± 48 m s-1。我们估计测量到的辐射来自 336-88+112 千米的垂直高度，相当于 3.8-3.4+19.2 帕的压力，与土卫六的上平流层/下中间层相称。这表明在此期间带状速度可能有所增加。然后将这些结果与以前的卡西尼干涉和直接干涉风观测结果以及大气环流模型模拟结果进行比较，以便更全面地了解平流层带风的季节周期。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

The Planetary Science Journal Earth and Planetary Sciences-Geophysics

CiteScore

5.20

自引率

0.00%

发文量

249

审稿时长

15 weeks