Sailing the Titan seas

May 6th, 2011 in Astronomy & Space / Space Exploration
Sunlight reflects off a Titan lake in this image captured by NASA's Cassini spacecraft. The Titan Mare Explorer (TiME), a candidate for NASA's next Discovery-class mission, would perform the first direct inspection of an ocean environment beyond Earth by landing in, and floating on, a large methane-ethane sea on the cloudy, complex moon of Saturn. Image Credit:NASA


Sunlight reflects off a Titan lake in this image captured by NASA's Cassini spacecraft. The Titan Mare Explorer (TiME), a candidate for NASA's next Discovery-class mission, would perform the first direct inspection of an ocean environment beyond Earth by landing in, and floating on, a large methane-ethane sea on the cloudy, complex moon of Saturn. Image Credit:NASA

(PhysOrg.com) -- The Johns Hopkins University Applied Physics Laboratory (APL) in Laurel, Md., is managing a project to explore the organic seas of Saturn's moon Titan, one of three proposals selected by NASA this week as candidates for the agency's next Discovery Program mission.

The Titan Mare Explorer, or TiME, would perform the first direct inspection of an ocean environment beyond Earth by landing in, and floating on, a large methane-ethane sea on the cloudy, complex moon. The mission would be led by principal investigator Ellen Stofan of Proxemy Research Inc. in Gaithersburg, Md. Lockheed Martin in Denver would build the TiME capsule, with scientific instruments provided by APL, Goddard Space Flight Center in Greenbelt, Md., and Malin Space Science Systems in San Diego.

Also selected were a NASA Jet Propulsion Laboratory lander that would study the Martian interior, and a NASA Goddard project to land on a comet multiple times and observe its interaction with the sun. Chosen from 28 full-mission proposals submitted to NASA last summer, each investigation team now receives $3 million to develop a detailed concept study. After another review of those studies in 2012, NASA will select one to develop for launch. The selected mission will be cost-capped at $425 million, not including funding.

APL also has a role on the NASA Goddard mission team, to provide a high-resolution telescopic camera for the "Comet Hopper" spacecraft.

"NASA's comment on the Discovery selection was, 'if ever there was a time to demonstrate being able to think differently, this is it,'" says John Sommerer, head of APL's Space Department. "It's 'common knowledge' that outer-planets missions are billion-dollar operations, but our team proposed a lander on Titan in the low-cost Discovery mission series. Coming off the success of both the MESSENGER mission to Mercury and the New Horizons mission now on its way to Pluto, it's clear that APL has met the challenge to think differently."

The TiME capsule would launch in 2016 and reach Titan in 2023, parachuting onto the moon's second-largest northern sea, the Ligeia Mare. For 96 days the capsule would study the composition and behavior of the sea and its interaction with Titan's weather and climate. TiME would also seek evidence of the complex organic chemistry that may be active on Titan today, and that may be similar to processes that led to the development of life on the early Earth.

Provided by Johns Hopkins University

"Sailing the Titan seas." May 6th, 2011. http://phys.org/news/2011-05-titan-seas.html