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TOPIC: Mars


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Title: Tidal excitation of elliptical instability in the Martian core: Possible mechanism for generating the core dynamo
Authors: J. Arkani-Hamed, B. Seyed-Mahmoud, K. D. Aldridge, R. E. Baker

We propose a causal relationship between the creation of the giant impact basins on Mars by a large asteroid, ruptured when it entered the Roche limit, and the excitation of the Martian core dynamo. Our laboratory experiments indicate that the elliptical instability of the Martian core can be excited if the asteroid continually exerts tidal forces on Mars for 20,000 years. Our numerical experiments suggest that the growth-time of the instability was 5,00015,000 years when the asteroid was at a distance of 50,00075,000 km. We demonstrate the stability of the orbital motion of an asteroid captured by Mars at a distance of 100,000 km in the presence of the Sun and Jupiter. We also present our results for the tidal interaction of the asteroid with Mars. An asteroid captured by Mars in prograde fashion can survive and excite the elliptical instability of the core for only a few million years, whereas a captured retrograde asteroid can excite the elliptical instability for hundreds of millions of years before colliding with Mars. The rate at which tidal energy dissipates in Mars during this period is over two orders of magnitude greater than the rate at which magnetic energy dissipates. If only 1% of the tidal energy dissipation is partitioned to the core, sufficient energy would be available to maintain the core dynamo. Accordingly, a retrograde asteroid is quite capable of exciting an elliptical instability in the Martian core, thus providing a candidate process to drive a core dynamo.

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A system of valleys located on Mars at 13.4S, 24.4W, has had the name Morava Valles approved by the IAU.

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The small Martian crater near the Phoenix landing site has had the name Heimdal approved by the IAU.

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Four Martian craters have had new names approved by the International Astronomical Union.
The new names are: Corinto, Naryn, Thila, and Wiltz.

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The dramatic differences between the northern and southern hemispheres of Mars have puzzled scientists for 30 years. One of the proposed explanations--a massive asteroid impact--now has strong support from computer simulations carried out by two groups of researchers. Planetary scientists at the University of California, Santa Cruz, were involved in both studies, which appear in the June 26 issue of Nature.

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A new analysis of the topography and gravity of Mars by researchers at MIT and NASA has solved one of the biggest remaining mysteries in the solar system -- why the planet Mars has two completely different kinds of terrain, in its northern and southern hemispheres. In the process, they have identified what appears to be by far the largest impact scar found anywhere.

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New observations from NASA's Mars Reconnaissance Orbiter indicate that the crust and upper mantle of Mars are stiffer and colder than previously thought.
The findings suggest any liquid water that might exist below the planet's surface and any possible organisms living in that water, would be located deeper than scientists had suspected.


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Mamers Valles
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Crater in Mamers Valles

arwp.gif  HI-RES JPEG (Size: 6439 kb) arwp.gif  HI-RES TIFF (Size: 53 038 kb)
spacer.gifCredits: ESA/ DLR/ FU Berlin (G. Neukum)

The High-Resolution Stereo Camera (HRSC) onboard the ESA spacecraft Mars Express obtained images of a region at the end of Mamers Valles, a long, winding valley. The focus is on a circular depression that contains a crater.
The data was obtained on 5 August 2006 with a ground resolution of approximately 14 m/pixel. The images are centred at approximately 39° north and 17° east on the planet.

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Mars climate
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The prevailing thinking is that Mars is a planet whose active climate has been confined to the distant past. About 3.5 billion years ago, the Red Planet had extensive flowing water and then fell quiet - deadly quiet. It didn't seem the climate had changed much since. Now, recent studies by scientists at Brown University show that  Mars' climate has been much more dynamic than previously believed.

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Brown University researchers have found compelling evidence of thick, recurring glaciers on Mars, a discovery that suggests that the Red Planets climate was much more dynamic than previously believed and could change again. Results are published on the cover of Geology magazine.

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The High Resolution Stereo Camera on board ESA`s Mars Express orbiter imaged the region of Nepenthes Mensae, a river delta on Mars, on 22 January 2008. The region is located in the eastern hemisphere of Mars, close to the boundary between the northern lowlands and the southern highlands.

Nepenthes Mensae
  arwp.gifHI-RES JPEG (Size: 1496 kb) arwp.gifHI-RES TIFF (Size: 59 344 kb)

The data was acquired in the region lying at approximately 3° north and 121° east with a ground resolution of 15 m/pixel.

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