Keep an eye on the skies over Hawaii on Thursday. If all goes to plan, NASA will be testing out a saucer-shaped craft that could hold the key to a future human mission to Mars.
The test flight was originally scheduled for Tuesday but mission managers were forced to postpone the launch twice due to unfavorable ocean conditions.
So far, NASA said, the waves have been too high for crew members to safely recover the craft after it splashes down into the sea.
The next chance to launch will be Thursday after 7:30 a.m.
If conditions are suitable, an enormous balloon will lift the test vehicle carrying the disc-like Low-Density Supersonic Decelerator, or LDSD, to a height of 120,000 feet, or more than 20 miles (32 kilometers), above Earth.
Then, mission controllers will set the LDSD free to fire its rockets and try out the centerpiece of the test: a giant supersonic parachute, measuring 100 feet (30 meters) across.
For those on the ground, live video will be relayed from four cameras aboard the pioneering saucer-shaped craft.
“You get to see all the same video I do, at the same time I do,” Mark Adler, project manager at NASA’s Jet Propulsion Laboratory in Pasadena, California, said in an online news release.
“This year’s test is centered on how our newly designed supersonic parachute will perform. We think we have a great design ready for the challenge, but the proof is in the pudding and the pudding will be made live for everyone to see.”
Updating decades-old technology
Last year, when the LDSD was tested for the first time — also launched from the U.S. Navy’s Pacific Missile Range facility in Kauai, Hawaii — the deployment of the parachute was the only problem, when it didn’t inflate as expected.
This time around, a new design is being tested: the Supersonic Ringsail parachute, which NASA says is the largest supersonic parachute ever tested for use on Mars.
Current technology for decelerating from high speeds during re-entry into the atmosphere to the final stages of landing on Mars dates back to NASA’s Viking Program, which put two landers on the Martian surface in 1976.
The basic Viking parachute design has been used ever since. It was successfully used again in 2012 to deliver the rover Curiosity to Mars.
NASA will need new and improved landing technologies to handle the larger spaceships of tomorrow and land them on rocky surfaces, as well as at higher altitudes.
Atmospheric drag
NASA scientists hope this saucer-shaped craft could be the key.
“As NASA plans ambitious robotic science missions to Mars, laying the groundwork for even more complex human expeditions to come, the spacecraft needed to land safely on the Red Planet’s surface will become larger and heavier in order to accommodate explorers’ extended stays on the Martian surface,” the agency’s website said.
This means the supersonic parachute will have its work cut out to create sufficient atmospheric drag to slow the vehicles down so they can be landed safely. Using drag for deceleration means precious fuel can be saved for landing maneuvers.
A third test flight for the LDSD is scheduled for summer 2016.