Dawn/VIR at Vesta: correction of the spectral variations induced by CDD temperature change on the visible channel

Batiste Rousseau; Maria Cristina De Sanctis; Mauro Ciarniello; Andrea Raponi; Pietro Scarica; Eleonora Ammannito; Alessandro Frigeri; Filippo Giacomo Carrozzo; Federico Tosi; Sergio Fonte

doi:https://doi.org/10.5194/epsc2020-116

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EPSC Abstracts

Vol. 14, EPSC2020-116, 2020, updated on 17 May 2022

https://doi.org/10.5194/epsc2020-116

Europlanet Science Congress 2020

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Dawn/VIR at Vesta: correction of the spectral variations induced by CDD temperature change on the visible channel

Batiste Rousseau¹, Maria Cristina De Sanctis¹, Mauro Ciarniello¹, Andrea Raponi¹, Pietro Scarica¹, Eleonora Ammannito², Alessandro Frigeri¹, Filippo Giacomo Carrozzo¹, Federico Tosi¹, and Sergio Fonte¹

Batiste Rousseau et al.

¹INAF, IAPS, Roma, Italy (batiste.rousseau@inaf.it)
²Agenzia Spaziale Italiana, Roma, Italy

Abstract

From July 2011 to September 2012, the Dawn spacecraft orbited the large asteroid (4) Vesta. A nearly global coverage of the surface was achieved by the Visible and InfraRed mapping spectrometer (VIR) [1]. The change of CCD temperature during the data acquisition affects the instrument spectral response. As a consequence, the acquired spectra experienced a change in spectral slope. Here we present a method to correct this issue; this method is similar to the one we applied for the VIR VIS data of Ceres [2].

CCD detector temperature dependencies

The acquisition of VIR data are organized in sequences during which several hyperspectral cubes are acquired. Within a given sequence, which may last several hours, the CCD temperature increases over time, while it goes back down in the time period between two sequences. The increase of CCD temperature induces a reddening of the spectra at visible wavelengths, as displayed in Fig. 1. To avoid misinterpretation and to retrieve a coherent shape of the Vesta spectra, a correction is therefore required.

Figure 1 – Median spectral variations observed for each CCD temperature recorded during the VH2 mission phase (normalized at 550nm).

Spectral correction

As in [2], we defined a correction factor for the different mission phases at Vesta, considering their particularities if necessary. This correction factor requires the definition of a reference temperature, at which the spectral response is considered reliable, and a corresponding reference spectrum. A previous analysis of the same effect on Ceres observations [2], revealed a reference CCD temperature of 177K. The correction has been applied on the mission phases during which VIR acquired VIS data. It allows to obtain a globally coherent dataset. Mapping and reliable spectral studies are then possible (see Fig. 2).

Figure 2 - Map of the spectral slope for the VH2 mission phase before (top) and after (bottom) the correction. The gradient observed, in each sequences, in the top panel vanishes in the bottom panel, after the application of the correction.

Conclusion

The empirical method developed in [2] has now been applied to the Vesta data acquired by the VIS channel of the VIR spectrometer. This correction is mandatory to carry out reliable analysis of the Vesta surface at global and local scale.

References

[1] De Sanctis, M. C., Coradini, A., et al. 2011, Space Science Reviews, 163, 329,

[2] Rousseau, B., Raponi, A., Ciarniello, M., et al. 2019, Review of Scientific Instruments, 90,

How to cite: Rousseau, B., De Sanctis, M. C., Ciarniello, M., Raponi, A., Scarica, P., Ammannito, E., Frigeri, A., Carrozzo, F. G., Tosi, F., and Fonte, S.: Dawn/VIR at Vesta: correction of the spectral variations induced by CDD temperature change on the visible channel, Europlanet Science Congress 2020, online, 21 Sep–9 Oct 2020, EPSC2020-116, https://doi.org/10.5194/epsc2020-116, 2020.