Fog on Titan detected by Huygens lander

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Fog on Titan detected by Huygens lander

Credit: arXiv:1603.04413 [astro-ph.EP]

Titan, the largest moon of Saturn, with its thick, dense atmosphere, is of special interest for scientists studying atmospheric features on other worlds. While the presence of fog on Titan was revealed in 2009 thanks to data provided by NASA/ESA Cassini spacecraft, a new study shows that this phenomenon is also visible from ground observations conducted by the ESA Huygens lander.

Huygens was released by the Cassini spacecraft and landed on Titan on January 14, 2005. It gathered crucial scientific data while descending through the nitrogen-dominated atmosphere for 2.5 hours and transmitted a signal for about 70 minutes after touchdown before contact was lost. It provided a variety of in situ measurements that are to this day bringing new insights on this curious planet-like moon.

One of the new findings was derived from the data collected by Huygens’ Side Looking Imager (SLI). A team of researchers has found that methane fog is also visible from the surface of Titan.
“The process of detecting this fog was, we took the Huygens Side Looking Imager data from data archives, restricting the images to those taken after landing,” Smith said. A total of 82 SLI images were calibrated, processed and examined. The team calibrated this subset of images and processed them using a variety of techniques. The technique that revealed these features most clearly was with mean frame subtraction. According to the scientists, the calibrated images show a smooth vertical radiance gradient across the images, with no other discernible features.

They evaluated possible origins and determined that these features most likely originate from the presence of a fog bank close to the horizon that rises and falls during the period of observation. A fog bank also explains the difference between the predicted sky radiance in the non-mean frame subtracted images: The observed radiance of the sky decreases more than the predicted radiance. “Therefore, for the aforementioned reasons, the presence of a fog bank that rises and falls over the course of the observing period is considered the most likely explanation for the observed feature,” the paper reads.

Titan harbors a thick atmosphere composed primarily of nitrogen (> 90%), followed by methane and smaller fractions of other components. Methane clouds have been detected from both terrestrial telescope observations and satellite observations at a variety of altitudes. It has been hypothesized that methane cycling, similar to the Earth’s hydrological-cycling, occurs on Titan. New findings from Huygens’ SLI show that even “older” data can offer new insights on Titan’s atmosphere.
http://phys.org/news/2016-03-fog-titan-huygens-lander.htmljCp