Calm Lakes on Titan Could Mean Smooth Landing for Future Space Probes

The lakes of liquid methane on Saturn’s moon, Titan, are perfect for paddling but not for surfing. New research led by The University of Texas at Austin has found that most waves on Titan’s lakes reach only about 1 centimeter high, a finding that indicates a serene environment that could be good news for future probes sent to the surface of that moon.

“There’s a lot of interest in one day sending probes to the lakes, and when that’s done, you want to have a safe landing, and you don’t want a lot of wind,” said lead author Cyril Grima, a research associate at the University of Texas Institute for Geophysics (UTIG). “Our study shows that because the waves aren’t very high, the winds are likely low.”

The research was published in the journal Earth and Planetary Science Letters on June 29. Collaborators include researchers at Cornell University, NASA’s Jet Propulsion Laboratory and The Johns Hopkins University Applied Physics Laboratory. UTIG is a research unit of the UT Jackson School of Geosciences.

Titan is the largest moon of Saturn and one of the locations in the solar system that is thought to possess the ingredients for life. In photos taken by the Cassini orbiter, a NASA probe, it appears as a smooth brown orb because of its thick atmosphere clouded with gaseous nitrogen and hydrocarbons. However, radar images from the same probe show that it has a surface crust made of water ice and drenched in liquid hydrocarbons. On Titan, methane and ethane fall from the sky as rain, fill deep lakes that dot the surface, and are possibly spewed into the air by icy volcanoes called cryovolcanoes.

Read more at University of Texas at Austin 

Image: Titan is Saturn's largest moon. Its cloudy appearance comes from an atmosphere mixed with gaseous nitrogen and hydrocarbons. (Credit: NASA Jet Propulsion Laboratory/ Cassini Orbiter)