Abstract
Abstract. A novel simulation chamber, PASSxS (Planetary Atmosphere Simulation System for Spectroscopy), has been developed for absorption measurements performed with a Fourier transform spectrometer (FTS) and, possibly, a cavity ring-down (CRD) spectrometer with a sample temperature ranging from 100 up to 550 K, while the pressure of the gas can be varied from 10 mbar up to 60 bar. These temperature and pressure ranges cover a significant part of the planetary atmospheres in the solar system, and the absorption chamber can thus be used to simulate planetary atmospheres of solar planets and extrasolar planets with similar physical conditions. The optical absorption path for the FTS absorption measurements is 3.2 m due to the implementation of a multi-pass setup inside the chamber. The FTS measurements cover a wide spectral range, from the visible to the mid-infrared, with a sensitivity sufficient for medium-strength absorption bands. The FTS has been used previously to measure high-pressure atmospheres, including collision-induced absorption bands and continuum absorption at ambient temperatures. PASSxS allows the measurement of the temperature dependence of collision-induced bands and continuum absorption, which is important for both the modeling of planetary atmospheres and fundamental processes involving collisions between molecules and atoms.
Highlights
The study of planetary atmospheres is important for exploring atmospheric composition as well as chemical and dynamical processes for solar and extrasolar planets, and it might provide valid information on the habitability of a planet or satellite
A novel simulation chamber, PASSxS (Planetary Atmosphere Simulation System for Spectroscopy), has been developed for absorption measurements performed with a Fourier transform spectrometer (FTS) and, possibly, a cavity ring-down (CRD) spectrometer with a sample temperature ranging from 100 up to 550 K, while the pressure of the gas can be varied from 10 mbar up to 60 bar
These temperature and pressure ranges cover a significant part of the planetary atmospheres in the solar system, and the absorption chamber can be used to simulate planetary atmospheres of solar planets and extrasolar planets with similar physical conditions
Summary
The study of planetary atmospheres is important for exploring atmospheric composition as well as chemical and dynamical processes for solar and extrasolar planets, and it might provide valid information on the habitability of a planet or satellite. Many space missions targeting planets of the solar system have been equipped with optical sensors in various spectral ranges with the goal to measure the composition and physical conditions of the atmosphere. These can provide information about geological processes, such as volcanic and tectonic activities, temperature profiles, the presence of liquid water necessary for the existence of life, and the formation of clouds. Several facilities are mentioned in the literature for optical measurements in gases, to our knowledge, none of these cover the combination of pressures and temperatures obtained with PASSxS
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