2008
DOI: 10.1029/2007je003044
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Phoenix Robotic Arm Camera

Abstract: [1] The Phoenix Robotic Arm Camera (RAC) is a variable-focus color camera mounted to the Robotic Arm (RA) of the Phoenix Mars Lander. It is designed to acquire both close-up images of the Martian surface and microscopic images (down to a scale of 23 mm/pixel) of material collected in the RA scoop. The mounting position at the end of the Robotic Arm allows the RAC to be actively positioned for imaging of targets not easily seen by the Stereo Surface Imager (SSI), such as excavated trench walls and targets under… Show more

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Cited by 29 publications
(23 citation statements)
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“…The impingement of the Fig. 3 Phoenix Robotic Arm Camera (Keller et al 2008) images of a strut on Sols 8, 31, and 44. The "smoking gun" that spheroids like that encircled in red must have been liquid, is the fact that they grew in proportion to their initial volume as predict by Raoult's Law, that they darkened just before disappearing (likely dripping off as predicted by stability analysis), and that growth was subsequently suppressed only over the material that appear to have dripped off, carrying the deliquescent salts with them.…”
Section: Observational Evidence For Liquid Brines On Marsmentioning
confidence: 99%
“…The impingement of the Fig. 3 Phoenix Robotic Arm Camera (Keller et al 2008) images of a strut on Sols 8, 31, and 44. The "smoking gun" that spheroids like that encircled in red must have been liquid, is the fact that they grew in proportion to their initial volume as predict by Raoult's Law, that they darkened just before disappearing (likely dripping off as predicted by stability analysis), and that growth was subsequently suppressed only over the material that appear to have dripped off, carrying the deliquescent salts with them.…”
Section: Observational Evidence For Liquid Brines On Marsmentioning
confidence: 99%
“…In the mid-to late-1990s, the deployable hand lens concept was adapted for spacecraft headed to Mars in the form of the RAC aboard Mars Polar Lander and Phoenix (Keller et al 2001(Keller et al , 2008, and the MER MI cameras aboard the rovers Spirit and Opportunity . Arriving in January 2004, the MER MI cameras quickly revolutionized Mars science, ending a 30-year discussion (e.g., Sharp and Malin 1984) as to whether sand-sized, windblown particles actually occur on Mars (Herkenhoff et al 2004a).…”
Section: Design Motivatorsmentioning
confidence: 99%
“…Microimaging capability-in the form of a geologist's hand lens-has long been an essential tool for terrestrial field geology. Imagery at the hand-lens scale (several cm field of view resolved to several tens of microns) provided by the Microscopic Imagers on the MERs and the Robotic Arm Camera (Keller et al, 2008) on the Phoenix lander has proven so vital to the success of these missions and to the Mars Exploration Program (Herkenhoff et al, 2004) that a microimager is one of the two instruments now recognized as essential for Mars surface missions (MEPAG ND-SAG, 2008). The microtextures of rocks and soils, defined as the microspatial interrelationships between constituent mineral grains, pore spaces, and secondary (authigenic) phases (e.g., cements) of minerals, provide essential data for inferring both primary formational processes and secondary (postformational) diagenetic processes.…”
Section: Some Classes Of Instruments Relevant To Primary In Situ Objementioning
confidence: 99%