Observation Capability of a Ground-Based Terahertz Radiometer for Vertical Profiles of Oxygen and Water Abundances in Martian Atmosphere

Observation Capability of a Ground-Based Terahertz Radiometer for Vertical Profiles of Oxygen and Water Abundances in Martian Atmosphere

We present the expected performance for a ground-based terahertz (THz) radiometer, a plan to be launched on the TERahertz EXplore-1 (TEREX-1) Mars exploration microspacecraft. The small THz passive radiometer has been developed for the TEREX series of future microspacecrafts. This spacecraft is an o...

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Bibliographic Details
Published in:IEEE transactions on geoscience and remote sensing Vol. 60; pp. 1 - 11
Main Authors: Yamada, Takayoshi, Baron, Philippe, Neary, Lori, Nishibori, Toshiyuki, Larsson, Richard, Kuroda, Takeshi, Daerden, Frank, Kasai, Yasuko
Format: Journal Article
Language:English
Published: New York IEEE 2022
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
Antenna measurements
Atmospheric measurements
Atmospheric observation
Error analysis
Exploration
Extraterrestrial measurements
Frequency measurement
Hydrogen peroxide
lander
Mars
Mars atmosphere
Mars exploration
Mars missions
Microspacecraft
Noise temperature
Oxygen
Radiometers
Resolution
Resource exploration
Satellites
Spacecraft
Temperature measurement
terahertz (THz)
Terahertz frequencies
Vertical profiles
Water vapor
Water vapour
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Summary:We present the expected performance for a ground-based terahertz (THz) radiometer, a plan to be launched on the TERahertz EXplore-1 (TEREX-1) Mars exploration microspacecraft. The small THz passive radiometer has been developed for the TEREX series of future microspacecrafts. This spacecraft is an opportunity for organizations with limited resources and technology to conduct frequent missions to Mars well suited for resource exploration in contrast to all of the current and past Mars missions of large/giant class missions with fully government lead. The observation frequencies of the TEREX-1 radiometer are 474.64-475.64 and 486.64-487.64 GHz with a 100-kHz resolution, and the double-sideband noise temperature less than 3000 K. A theoretical error analysis is performed with the instrument characteristics to assess for the first time up-looking observations of atmospheric oxygen molecules (O 2 ) and water vapor (H 2 O). Measurement errors for O 2 and H 2 O are 7%-22% and 14%-25% with 8-17- and 5-10-km vertical resolution in the vertical ranges 0-55 and 0-25 km, respectively. TEREX-1 is also capable to measure minor species, O 3 and H 2 O 2 , with a precision better than 30% within two independent layers. We used the integration time of 1 h for all simulations. Our theoretical simulation showed the instrument characteristics of the TEREX-1 sensor are able to observe vertical profiles of O 2 and H 2 O abundances with the same level of the large class missions.
ISSN:0196-2892
1558-0644
DOI:10.1109/TGRS.2022.3152271