Literature DB >> 27333621

Optical and radiometric models of the NOMAD instrument part II: the infrared channels - SO and LNO.

I R Thomas, A C Vandaele, S Robert, E Neefs, R Drummond, F Daerden, S Delanoye, B Ristic, S Berkenbosch, R Clairquin, J Maes, S Bonnewijn, C Depiesse, A Mahieux, L Trompet, L Neary, Y Willame, V Wilque, D Nevejans, L Aballea, W Moelans, L De Vos, S Lesschaeve, N Van Vooren, J-J Lopez-Moreno, M R Patel, G Bellucci.   

Abstract

NOMAD is a suite of three spectrometers that will be launched in 2016 as part of the joint ESA-Roscosmos ExoMars Trace Gas Orbiter mission. The instrument contains three channels that cover the IR and UV spectral ranges and can perform solar occultation, nadir and limb observations, to detect and map a wide variety of Martian atmospheric gases and trace species. Part I of this work described the models of the UVIS channel; in this second part, we present the optical models representing the two IR channels, SO (Solar Occultation) and LNO (Limb, Nadir and Occultation), and use them to determine signal to noise ratios (SNRs) for many expected observational cases. In solar occultation mode, both the SO and LNO channel exhibit very high SNRs >5000. SNRs of around 100 were found for the LNO channel in nadir mode, depending on the atmospheric conditions, Martian surface properties, and observation geometry.

Year:  2016        PMID: 27333621     DOI: 10.1364/oe.24.003790

Source DB:  PubMed          Journal:  Opt Express        ISSN: 1094-4087            Impact factor:   3.894


  3 in total

1.  PLANET TOPERS: Planets, Tracing the Transfer, Origin, Preservation, and Evolution of their ReservoirS.

Authors:  V Dehant; D Asael; R M Baland; B K Baludikay; J Beghin; J Belza; M Beuthe; D Breuer; S Chernonozhkin; Ph Claeys; Y Cornet; L Cornet; A Coyette; V Debaille; C Delvigne; M H Deproost; N De WInter; C Duchemin; F El Atrassi; C François; J De Keyser; C Gillmann; E Gloesener; S Goderis; Y Hidaka; D Höning; M Huber; G Hublet; E J Javaux; Ö Karatekin; J Kodolanyi; L Lobo Revilla; L Maes; R Maggiolo; N Mattielli; M Maurice; S McKibbin; A Morschhauser; W Neumann; L Noack; L B S Pham; L Pittarello; A C Plesa; A Rivoldini; S Robert; P Rosenblatt; T Spohn; J -Y Storme; N Tosi; A Trinh; M Valdes; A C Vandaele; F Vanhaecke; T Van Hoolst; N Van Roosbroek; V Wilquet; M Yseboodt
Journal:  Orig Life Evol Biosph       Date:  2016-06-23       Impact factor: 1.950

2.  Water heavily fractionated as it ascends on Mars as revealed by ExoMars/NOMAD.

Authors:  Geronimo L Villanueva; Giuliano Liuzzi; Matteo M J Crismani; Shohei Aoki; Ann Carine Vandaele; Frank Daerden; Michael D Smith; Michael J Mumma; Elise W Knutsen; Lori Neary; Sebastien Viscardy; Ian R Thomas; Miguel Angel Lopez-Valverde; Bojan Ristic; Manish R Patel; James A Holmes; Giancarlo Bellucci; Jose Juan Lopez-Moreno
Journal:  Sci Adv       Date:  2021-02-10       Impact factor: 14.136

3.  Martian CO2 Ice Observation at High Spectral Resolution With ExoMars/TGO NOMAD.

Authors:  F Oliva; E D'Aversa; G Bellucci; F G Carrozzo; L Ruiz Lozano; F Altieri; I R Thomas; O Karatekin; G Cruz Mermy; F Schmidt; S Robert; A C Vandaele; F Daerden; B Ristic; M R Patel; J-J López-Moreno; G Sindoni
Journal:  J Geophys Res Planets       Date:  2022-05-04       Impact factor: 4.434
  3 in total

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