Stickney crater (at left)
(Viking orbiter, 10 June 1977).
|Feature type||Impact crater|
|Dimensions||9 km (5.6 mi) in diameter.|
|Naming||Chloe Angeline Stickney Hall|
The crater is named after Chloe Angeline Stickney Hall, wife of Phobos's discoverer, Asaph Hall. In 1878 Hall wrote that he "might have abandoned the search [for Martian satellites] had it not been for the encouragement of [his] wife." The crater was named in 1973, based on Mariner 9 images, by an IAU nomenclature committee chaired by Carl Sagan.
Grooves and crater chains appear to radiate from Stickney. These have led to theories about the impact that formed Stickney nearly destroying the moon. However, evidence from the Mars Express orbiter indicate that they are unrelated to Stickney and may have been formed by material ejected from impacts on Mars. More recent modelling supports the theory that the grooves are signs of deformation caused by tidal forces. The crater has a noticeable lineated texture on its interior walls, caused by landslides from materials falling into the crater.
It is possible that Stickney is large enough to be seen with the naked eye from the surface of Mars. It is located at the middle of the western edge of the Mars-facing side of Phobos.
- Blue, Jennifer. "Stickney". Gazetteer of Planetary Nomenclature. USGS Astrogeology Research Program.
- Blue, Jennifer. "Phobos Nomenclature: Crater". Gazetteer of Planetary Nomenclature. Retrieved 24 July 2009.
- Hall, Asaph, Observations and orbits of the satellites of Mars, Washington: Government Printing Office, 1878 (quoted in Hall, Angelo, An astronomer's wife, Baltimore: Nunn and Company, 1908, p. 112).
- Veverka, Joseph et al. "A Mariner 9 atlas of the moons of Mars," Icarus 23, 206-289 (1974).
- Murray, John B. et al. "New evidence on the origin of Phobos' parallel grooves from HRSC Mars Express," Lunar and Planetary Science XXXVII (2006).
- Zubritsky, Elizabeth. "Mars' Moon Phobos is Slowly Falling Apart". NASA's Goddard Space Flight Center. Retrieved 11 November 2015.
- "Phobos from 6,800 Kilometers (Color)". NASA/JPL-Caltech/University of Arizona. 9 April 2008. Retrieved 9 April 2008.
- Calculating the angular size of an object with a diameter of 9 kilometres (5.6 mi) at a distance of 9,250 kilometres (5,750 mi), yields 9/9250 * 206265 = 200 arcseconds. An object needs a size of 60 arcseconds to be resolved by the naked eye.
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