C. Cot scite author profile

[1] Spectroscopy for the Investigation of the Characteristics of the Atmosphere of Mars (SPICAM) is the first instrument orbiting a planet other than Earth that is dedicated to the technique of stellar occultation. During the first year of operation on board Mars Express, SPICAM observed more than 500 star occultations, yielding vertical profiles of CO 2 , ozone, and dust/clouds/aerosols. We review the principles of a star occultation in the absorptive regime, emphasizing two advantages of this method: an absolute value is obtained from a relative measurement without the need for an absolute calibration of the instrument, and the altitude of the measurement is accurately known because it depends only on the position of the spacecraft and not on the pointing of the instrument. We describe a general algorithm used for all occultations. First, we derive from the raw data the transmission of the atmosphere as a function of wavelength, T(l, z), taking account of instrument-specific factors. Then a spectral inversion retrieves the slant densities (local densities integrated along the line of sight) of all absorbing species for each measurement of the transmission T(l, z) during the occultation. Finally, a vertical inversion retrieves the vertical distribution of the local densities from the series of the slant density measurements. This vertical inversion includes a new scheme of Tikhonov regularization. This paper will serve as a reference for the SPICAM Mars Express data which will be systematically made available to the public in the PDS-like archive managed by ESA.

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GOMOS on Envisat: an overview

Kyrölä

Tamminen

Leppelmeier

et al. 2004

Advances in Space Research

159

107

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Wave‐turbulence interaction in the stratosphere: A case study

Cot¹,

Barat²

1986

J. Geophys. Res.

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We present simultaneous in situ measurements of a long‐period inertio‐gravity wave and of clear air turbulence events associated with wave propagation. The energy budget of the wave‐turbulence interaction shows that a wave of long period and of short vertical wavelength may propagate upward over several wavelengths close to the shear instability conditions. This result allows one to interpret the spatiotemporal structure of CAT layers as reported in the literature and in particular their horizontal and vertical extent, their thickness, and their persistence.

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First results on GOMOS/ENVISAT

Bertaux

Hauchecorne

Dalaudier

et al. 2004

Advances in Space Research

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Large, solid particles in the clouds of Venus: Do they exist?

Toon

Ragent

Colburn

et al. 1984

Icarus

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C. Cot

Stellar occultations observed by SPICAM on Mars Express

GOMOS on Envisat: an overview

Wave‐turbulence interaction in the stratosphere: A case study

First results on GOMOS/ENVISAT

Large, solid particles in the clouds of Venus: Do they exist?

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