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Literature DB >> 28731819

The Close-Up Imager Onboard the ESA ExoMars Rover: Objectives, Description, Operations, and Science Validation Activities.

Jean-Luc Josset¹, Frances Westall², Beda A Hofmann^3,4, John Spray⁵, Charles Cockell⁶, Stephan Kempe⁷, Andrew D Griffiths⁸, Maria Cristina De Sanctis⁹, Luigi Colangeli¹⁰, Detlef Koschny¹⁰, Karl Föllmi¹¹, Eric Verrecchia¹², Larryn Diamond⁴, Marie Josset¹, Emmanuelle J Javaux¹³, Francesca Esposito¹⁴, Matthew Gunn¹⁵, Audrey L Souchon-Leitner¹, Tomaso R R Bontognali¹⁶, Oleg Korablev¹⁷, Suren Erkman¹⁸, Gerhard Paar¹⁹, Stephan Ulamec²⁰, Frédéric Foucher², Philippe Martin²¹, Antoine Verhaeghe¹, Mitko Tanevski¹, Jorge L Vago¹⁰.

Abstract

The Close-Up Imager (CLUPI) onboard the ESA ExoMars Rover is a powerful high-resolution color camera specifically designed for close-up observations. Its accommodation on the movable drill allows multiple positioning. The science objectives of the instrument are geological characterization of rocks in terms of texture, structure, and color and the search for potential morphological biosignatures. We present the CLUPI science objectives, performance, and technical description, followed by a description of the instrument's planned operations strategy during the mission on Mars. CLUPI will contribute to the rover mission by surveying the geological environment, acquiring close-up images of outcrops, observing the drilling area, inspecting the top portion of the drill borehole (and deposited fines), monitoring drilling operations, and imaging samples collected by the drill. A status of the current development and planned science validation activities is also given. Key Words: Mars-Biosignatures-Planetary Instrumentation. Astrobiology 17, 595-611.

Entities: Species

Year: 2017 PMID： 28731819 DOI： 10.1089/ast.2016.1546

Source DB: PubMed Journal: Astrobiology ISSN： 1557-8070 Impact factor: 4.335

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Cited

5 in total

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Journal: Astrobiology Date: 2017-07-01 Impact factor: 4.335

2. Periodic Bedrock Ridges at the ExoMars 2022 Landing Site: Evidence for a Changing Wind Regime.

Authors: S Silvestro; A Pacifici; F Salese; D A Vaz; A Neesemann; D Tirsch; C I Popa; M Pajola; G Franzese; G Mongelluzzo; A C Ruggeri; F Cozzolino; C Porto; F Esposito
Journal: Geophys Res Lett Date: 2021-02-22 Impact factor: 4.720

3. The UK Centre for Astrobiology: A Virtual Astrobiology Centre. Accomplishments and Lessons Learned, 2011-2016.

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Journal: Astrobiology Date: 2018-01-29 Impact factor: 4.335

4. The Complex Molecules Detector (CMOLD): A Fluidic-Based Instrument Suite to Search for (Bio)chemical Complexity on Mars and Icy Moons.

Authors: Alberto G Fairén; Javier Gómez-Elvira; Carlos Briones; Olga Prieto-Ballesteros; José Antonio Rodríguez-Manfredi; Raquel López Heredero; Tomás Belenguer; Andoni G Moral; Mercedes Moreno-Paz; Víctor Parro
Journal: Astrobiology Date: 2020-08-26 Impact factor: 4.335

Review 5. The Mars 2020 Perseverance Rover Mast Camera Zoom (Mastcam-Z) Multispectral, Stereoscopic Imaging Investigation.

Authors: J F Bell; J N Maki; G L Mehall; M A Ravine; M A Caplinger; Z J Bailey; S Brylow; J A Schaffner; K M Kinch; M B Madsen; A Winhold; A G Hayes; P Corlies; C Tate; M Barrington; E Cisneros; E Jensen; K Paris; K Crawford; C Rojas; L Mehall; J Joseph; J B Proton; N Cluff; R G Deen; B Betts; E Cloutis; A J Coates; A Colaprete; K S Edgett; B L Ehlmann; S Fagents; J P Grotzinger; C Hardgrove; K E Herkenhoff; B Horgan; R Jaumann; J R Johnson; M Lemmon; G Paar; M Caballo-Perucha; S Gupta; C Traxler; F Preusker; M S Rice; M S Robinson; N Schmitz; R Sullivan; M J Wolff
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