# The reflectance spectrum of Titan's surface at the Huygens landing site   determined by the Descent Imager/Spectral Radiometer

**Authors:** S.E. Schr\"oder, H.U. Keller

arXiv: 1702.00653 · 2017-02-03

## TL;DR

This study reconstructs Titan's surface reflectance spectrum at the Huygens landing site using spectral data and lamp calibration, revealing organic material presence and a methane ratio, with improved accuracy over previous analyses.

## Contribution

The paper presents a new reconstruction method for Titan's surface spectrum using lamp flux calibration, leading to higher reflectance estimates and better spectral features analysis.

## Key findings

- Higher overall reflectance than previous studies.
- Detection of a red slope indicating organic material.
- Methane mixing ratio of 4.5% above the surface.

## Abstract

The Descent Imager/Spectral Radiometer aboard the Huygens probe successfully acquired images and spectra of the surface of Titan. To counter the effects of haze and atmospheric methane absorption it carried a Surface Science Lamp to illuminate the surface just before landing. We reconstruct the reflectance spectrum of the landing site in the 500-1500 nm range from Downward Looking Visual and Infrared Spectrometer data that show evidence of lamp light. Our reconstruction is a followup to the analysis by Tomasko et al. (2005), who scaled their result to the ratio of the up- and down flux measured just before landing. Instead, we use the lamp flux from the calibration experiment, and find a significantly higher overall reflectance. We attribute this to a phase angle dependance, possibly representing the opposition surge commonly encountered on solar system bodies. The reconstruction in the visible wavelength range is greatly improved. Here, the reflectance spectrum features a red slope, consistent with the presence of organic material. We confirm the blue slope in the near-IR, featureless apart from a single shallow absorption feature at 1500 nm. We agree with Tomasko et al. that the evidence for water ice is inconclusive. By modeling of absorption bands we find a methane mixing ratio of 4.5% +/- 0.5% just above the surface. There is no evidence for the presence of liquid methane, but the data do not rule out a wet soil at a depth of several centimeters.

## Full text

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## Figures

40 figures with captions in the complete paper: https://tomesphere.com/paper/1702.00653/full.md

## References

40 references — full list in the complete paper: https://tomesphere.com/paper/1702.00653/full.md

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Source: https://tomesphere.com/paper/1702.00653