J. F. Sanz-Requena scite author profile

One of the most intriguing, long‐standing questions regarding Venus's atmosphere is the origin and distribution of the unknown UV absorber, responsible for the absorption band detected at the near‐UV and blue range of Venus's spectrum. In this work, we use data collected by Mercury Atmospheric and Surface Composition Spectrometer (MASCS) spectrograph on board the MErcury Surface, Space ENvironment, GEochemistry, and Ranging (MESSENGER) mission during its second Venus flyby in June 2007 to address this issue. Spectra range from 0.3 μm to 1.5 μm including some gaseous H2O and CO2 bands, as well as part of the SO2 absorption band and the core of the UV absorption. We used the NEMESIS radiative transfer code and retrieval suite to investigate the vertical distribution of particles in the equatorial atmosphere and to retrieve the imaginary refractive indices of the UV absorber, assumed to be well mixed with Venus's small mode 1 particles. The results show a homogeneous equatorial atmosphere, with cloud tops (height for unity optical depth) at 75 ± 2 km above surface. The UV absorption is found to be centered at 0.34 ± 0.03 μm with a full width at half maximum of 0.14 ± 0.01 μm. Our values are compared with previous candidates for the UV aerosol absorber, among which disulfur oxide (S2O) and dioxide disulfur (S2O2) provide the best agreement with our results.

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Deep winds beneath Saturn’s upper clouds from a seasonal long-lived planetary-scale storm

Sánchez‐Lavega

Río‐Gaztelurrutia²,

Hueso³

et al. 2011

Nature

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The 2009–2010 fade of Jupiter’s South Equatorial Belt: Vertical cloud structure models and zonal winds from visible imaging

Pérez‐Hoyos

Sanz-Requena

Barrado-Izagirre

et al. 2012

Icarus

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Life Cycle Assessment (LCA) of the biofuel production process from sunflower oil, rapeseed oil and soybean oil

Sanz-Requena

Guimarães

Alpera

et al. 2011

Fuel Processing Technology

112

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Haze and cloud structure of Saturn's North Pole and Hexagon Wave from Cassini/ISS imaging

Sanz-Requena

Pérez‐Hoyos

Sánchez‐Lavega

et al. 2018

Icarus

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In this paper we present a study of the vertical haze and cloud structure in the upper two bars of Saturn's Northern Polar atmosphere using the Imaging Science Subsystem (ISS) instrument onboard the Cassini spacecraft. We focus on the characterization of latitudes from 53º to 90º N. The observations were taken during June 2013 with five different filters (VIO, BL1, MT2, CB2 and MT3) covering spectral range from the 420 nm to 890 nm (in a deep methane absorption band). Absolute reflectivity measurements of seven selected regions at all wavelengths and several illumination and observation geometries are compared with the values produced by a radiative transfer model. The changes in reflectivity at these latitudes are mostly attributed to changes in the tropospheric haze. This includes the haze base height (from 600±200 mbar at the lowest latitudes to 1000±300 mbar in the pole), its particle number density (from 20±2 particles/cm 3 to 2±0.5 particles/cm 3 at the haze base) and its scale height (from 18±0.1 km to 50±0.1 km). We also report variability in the retrieved particle size distribution and refractive indices. We find that the Hexagonal Wave dichotomizes the studied stratospheric and tropospheric hazes between the outer, equatorward regions and the inner, Polar Regions.

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J. F. Sanz-Requena

Venus Upper Clouds and the UV Absorber From MESSENGER/MASCS Observations

Deep winds beneath Saturn’s upper clouds from a seasonal long-lived planetary-scale storm

The 2009–2010 fade of Jupiter’s South Equatorial Belt: Vertical cloud structure models and zonal winds from visible imaging

Life Cycle Assessment (LCA) of the biofuel production process from sunflower oil, rapeseed oil and soybean oil

Haze and cloud structure of Saturn's North Pole and Hexagon Wave from Cassini/ISS imaging

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