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TOPIC: Titan


L

Posts: 131433
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Titan Flyby
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The Cassini spacecraft will study the hazy atmosphere of Saturn's moon Titan from the inside out during a flyby on March 18, 2006 at a distance of 1,951 km.

Cassini will transmit radio waves to Earth as it flies behind Titan. The radio waves will pass through Titan's atmosphere, revealing characteristics about the atmosphere's temperature, structure and winds. Cassini has never done this before, though NASA's Voyager 1 did a similar experiment in 1980.

During this flyby, Cassini also will bounce radio waves off the surface of Titan for receipt on Earth. The reflectiveness at different wavelengths will provide information about the surface roughness and composition.

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L

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RE: Titan
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This specially processed composite view reveals a tremendous amount of structure in the northern polar atmosphere of Titan. The hazes in Titan's atmosphere are known to extend hundreds of kilometres above the surface.


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Structure visible here could be due to multiple detached hazes, or waves in the atmosphere that propagate through stably stratified layers.
Ten images taken during a brief period were processed to enhance fine detail and then were combined to create this view.
North on Titan is up.
The images were taken in visible light with the Cassini spacecraft narrow-angle camera on Jan. 18, 2006 at a distance of approximately 2.2 million kilometres from Titan and at a Sun-Titan-spacecraft, or phase, angle of 155 degrees. Image scale is 13 kilometres per pixel.

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This image of Titan was taken by the Cassini spaceprobe on March 02, 2006, when it was approximately 1,626,390 kilometres away.



The image was taken using the CL1 and CB2 filters.

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L

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Titan Methane
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An international team of planetary scientists may have solved the mystery of why the atmosphere of Saturn's moon, Titan, is rich in methane.

Methane, which on Titan plays a role similar to water on Earth, is locked in a methane-rich water ice that forms a crust above an ocean of liquid water mixed with ammonia, the scientists say. Major episodes of outgassing pumped methane into Titan's mostly nitrogen atmosphere three times during the moon's evolutionary history, they discovered.

Gabriel Tobie of the University of Nantes, France, Jonathan Lunine of The University of Arizona and Christophe Sotin, also of the University of Nantes, describe their model of how Titan's atmosphere evolved in the March 2 issue of Nature. (Lunine is currently on sabbatical at the Italian National Astrophysics Institute in Rome, Italy.)
Results from the European Space Agency's Huygens probe that landed on Titan Jan. 14, 2005, and remote sensing instruments on NASA's Cassini orbiter agree with their findings, they add.
The presence of methane in Titan's atmosphere is one of the major enigmas that the Cassini-Huygens mission to Saturn's system is trying to resolve.

Scientists have long known that Titan's atmosphere contains methane, ethane, acetylene and many other hydrocarbon compounds. But sunlight irreversibly destroys methane after tens of millions of years, so something has replenished methane in Titan's thick air during the moon's 4.5 billion-year history.
The first episode of methane gas release happened after Titan formed its dense rock core and water mantle beneath an ice crust.
Ammonia acting as an antifreeze, heat leftover from formation, and heat from radioactive elements aided the release of methane during the first billion years, or possibly just a few hundred million years, in Titan's history. Much of the methane in this first release might have been reabsorbed into Titan's interior. But whatever methane was left in the atmosphere was photochemically destroyed in the first billion years.
The second methane-release episode around two billion years ago is even more interesting. That's when convection began within Titan's silicate core.


This graphic illustration of Titan's internal structure shows the layers involved in releasing methane during three episodes in the moon's history. Methane is locked in the methane-rich water ice that forms a crust above an ocean of liquid water mixed with ammonia.

"The core, made of rock, continued to heat up because it contains natural radioactive elements like uranium, potassium and thorium. On Earth, these elements are concentrated in the crust, but on Titan, they'd be deep down in the rock. So the core gets hotter and hotter, until finally it's soft enough for convection to start" - Professor Jonathan Lunine, interdisciplinary scientist for the Huygens probe, UA planetary sciences.

Convection is the mechanical turnover of material to remove heat. The second event of around two billion years ago injected a burst of convection heat into Titan's overlying mantle, causing the ice crust to thin and methane to outgas through ice to the surface.
The latest methane-release episode began around 500 million years ago. It's the result of the planet cooling by convection in Titan's solid ice crust.
While the cause for each outgassing episode differs, the result is the same.

"As this crystallisation started only relatively recently (500 to 1000 million years ago), we expect that the ammonia-water ocean is still present few tens of kilometres below the surface and that methane outgassing is still operating. Even though the outgassing rate is expected to decline now (it peaked about 500 million years ago), release of methane through cryovolcanic eruptions should still occur on Titan. Parts of the clathrate crust might be warmed from time to time by ‘cryovolcanic’ activity on the moon, causing it to release its methane into the atmosphere. These outbursts could produce temporary flows of liquid methane on the surface, accounting for the river-like features seen on Titan’s surface. Cassini’s instruments, in particular its Visible and Infrared Mapping Spectrometer (VIMS), should detect an increasing number of cryovolcanic features and, if we are lucky, may eventually detect eruptions of methane" - Gabriel Tobie, of the Laboratoire de Planetologie et Geodynamique de Nantes

"There's an injection of methane into the surface and atmosphere of Titan. We are now in an era where there's enough outgassing to add methane to the atmosphere, but not enough for widespread seas of methane. There'll be no further such events until billions of years in the future, when the sun goes red giant and cooks Titan. Methane outgassing will cease within the next few hundred million years. Then photochemistry will destroy the surface methane and Titan will indeed dry up. The atmosphere will clear of haze, and Titan will look very different" - Professor Jonathan Lunine.

This outgassing episode will be Titan's last.

When the Huygens probe warmed Titan's damp surface where it landed in January 2005, its instruments inhaled whiffs of methane. The heat of the probe caused methane trapped in pores just below the surface to evaporate, just as subsurface water would evaporate on Earth if you fired up a camping stove in the sand of a dry streambed.
The UA-led Descent Imager Spectral Radiometer experiment, which was the Huygens camera, revealed Titan's spectacular landscapes apparently carved by liquid methane.

Read more

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RE: Titan
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This image of Titan was taken by the Cassini spaceprobe on February 27, 2006, when it was approximately 40,312 kilometres away.



The image was taken using the IR3 and CL2 filters.

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This image of Titan was taken by the Cassini spaceprobe on February 26, 2006 when it was approximately 29,469 kilometres away.



The image was taken using the CB3 and CL2 filters

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This image of Titan was taken by the Cassini spaceprobe on February 26, 2006 when it was approximately 408,883 kilometres away.


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The image was taken using the CL1 and CB3 filters.

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This image of Titan was taken by the Cassini spaceprobe on February 26, 2006 when it was approximately 430,643 kilometres away.


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The image was taken using the CL1 and CB3 filters.

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RE: Titan T11
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Cassini's February 27th (T11) flyby of Titan, at a distance of 1,813 km, is the first of four coordinated Radio Science flybys that explore the interior of Titan.
T22, T33, and T38 are the others. This flyby occurs when Titan is near the furthest point in its orbit from Saturn , and the spacecraft flyby is at a low inclination.

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RE: Titan
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This infrared view shows features on the leading hemisphere of Titan, including the bright, crescent-shaped Hotei arcus (right of centre), which is also informally called "the Smile" by researchers.



The view is centred on the bright region called Xanadu. Above centre is the large crater Menrva, which is surrounded by darker material.
North on Titan is up and rotated 30 degrees to the left.
The image was taken with the Cassini spacecraft narrow-angle camera on Jan. 13, 2006 using a spectral filter sensitive to wavelengths of infrared light centred at 938 nanometers. The image was acquired at a distance of approximately 1.3 million kilometres from Titan and at a Sun-Titan-spacecraft, or phase, angle of 41 degrees. Image scale is 7 kilometres per pixel.

The spacecraft will make a flyby 1,800 kilometres from Titan's cloudtops on February 27.
During 2006, Cassini is scheduled to fly past the moon 13 times.

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