Thu, 10 Feb 2011 06:40 UTC
The comet is Tempel 1, which NASA's Deep Impact probe visited in 2005. Now another NASA spacecraft, Stardust-NExT, is closing in for a second look on Valentine's Day, Feb. 14, 2011. The two visits bracket one complete orbit of the comet around the sun--and a blast of solar heat.
"Close encounters with the sun never go well for a comet," says Veverka. "Fierce solar heat vaporizes the ices in the comet's core, causing it to spit dust and spout gas. The cyclic loss of material eventually leads to its demise."
Researchers suspect the flamboyant decay doesn't happen evenly all over a comet's surface*, but until now they've lacked a way to document where, exactly, it does occur. Stardust NExT will image some of the same surface areas Deep Impact photographed 6 years ago, revealing how these areas have changed and where material has been lost.
"Deep Impact gave us tantalizing glimpses of Temple 1," says Veverka. "And we saw strange and unusual things we'd like a closer look at."
At a January 2011 press conference, Veverka and other Stardust-NExT team members listed the features they're most interested in seeing again:
For starters, parts of the comet's surface are layered like pancakes.
"Earth has layers because water and wind move dirt and debris around here, but layering on a comet was a surprise - and a mystery," says Veverka.
"One idea is that two protocometary bodies collided at low speeds and smushed together to form something like a stack of flapjacks," says Pete Shultz, Stardust-NExT co-investigator.
Is that right? Data obtained by Stardust-NExT will provide clues and possibly reveal what made the "comet pancakes."
Another area intrigues the research team even more.
"There's a large plateau that looks like a flow," says Shultz. "If it really is a flow, it means there was recently gas and dust emanating from the [surface]."
Stardust-NExT will reveal how the plateau has changed (Is it flowing?), helping the team determine its origin. Whatever their origin, the plateau and layering show that comets have a much more complicated geologic history than previously thought.
"Tempel 1 is not just a fuzzy ball," says Shultz. "It has history."
"The dust has settled there, so if the right part of the comet is facing us, we could see the crater and learn its size," says Veverka. "That would answer some key questions. For instance, is a comet's surface hard or soft?"
In a future mission, a spacecraft may land on a comet and gather samples for analysis. To design a suitable lander, researchers need to know what kind of surface it would land on. They'll also need to know which tools to send - drills for hard surfaces or scoops for something softer.
Like Deep Impact, the Stardust spacecraft has already had a productive career. Launched in 1999, it approached Comet Wild 2 close enough in 2004 to image its feature-rich surface and even gather dust particles from the comet's atmosphere. (A key finding in the sample was the amino acid glycene - a building block of life.)
"We could have just let this old spacecraft rest on those laurels, leaving it to forever orbit the sun," says Veverka. "But instead, we're doing first-class comet science with it -- again."
As for Tempel 1, a hungry sun awaits.