After a five year journey from Earth to Jupiter, NASA’S Juno spacecraft made it with a do-or-die engine burn that looped it into orbit to probe the origins of the biggest planet in the solar system and how it impacted the rise of life on Earth, the U.S. space agency said.
It fired its main engine, slowing its velocity, and allowing it to get captured into Jupiter’s hefty orbit.
After it was complete, jubilant scientists fronted a press conference, and tore up a “contingency communication strategy” they said they prepared in case things went wrong.
“To know we can go to bed tonight not worrying about what is going to happen tomorrow, is just amazing,” said Diane Brown, a project manager from NASA’s Jet Propulsion Laboratory.
Juno fired its main engine beginning at 11:18 p.m. EDT/0318 Tuesday GMT.
Launched from Florida nearly five years ago, Juno needed to be precisely positioned, ignite its main engine at exactly the right time and keep it firing for 35 minutes to become only the second spacecraft to orbit Jupiter.
If anything went even slightly awry, Juno would have sailed helplessly past Jupiter, unable to complete a $1 billion mission.
Once in position to begin its 20-month science mission, Juno will fly in egg-shaped orbits, each one lasting 14 days, to peer through the planet’s thick clouds, map its gargantuan magnetic field and probe through the crushing atmosphere for evidence of a dense inner core.
The probe also will hunt for water in Jupiter’s thick atmosphere, a key yardstick for figuring out how far away from the sun the gas giant formed.
Jupiter’s origins, in turn, affected the development and position of the rest of the planets, including Earth and its fortuitous location conducive to the evolution of life.
Jupiter, which could hold 1,300 Earths, orbits five times farther from the sun than Earth, but it may have started out elsewhere and migrated, jostling its smaller sibling planets as it moved.
Earth and Mars were positioned at the right distance from the sun for liquid surface water, which is believed to be necessary for life. Scientists have been studying Mars to figure out why the planet lost its water.
Jupiter’s immense gravity also diverts many asteroids and comets from potentially catastrophic collisions with Earth and the rest of the inner solar system.
“We are learning about nature, how Jupiter formed and what that tells us about our history and where we came from,” said Juno lead scientist Scott Bolton, with the Southwest Research Institute in San Antonio.
NASA expects Juno to be in position for its first close-up images of Jupiter on Aug. 27, the same day its science instruments are turned on for a test run.
Only one other spacecraft, Galileo, has ever circled Jupiter, which is itself orbited by 67 known moons. Bolton said Juno is likely to discover even more.
Seven other U.S. space probes have sailed past the gas giant on brief reconnaissance missions before heading elsewhere in the solar system.
The risks to the spacecraft are not over. Juno will fly in highly elliptical orbits that will pass within 3,000 miles (4,800 km) of the tops of Jupiter’s clouds and inside the planet’s powerful radiation belts.
Juno’s computers and sensitive science instruments are housed in a 400-pound (180-kg) titanium vault for protection. But during its 37 orbits around Jupiter, Juno will be exposed to the equivalent of 100 million dental X-rays, said Bill McAlpine, radiation control manager for the mission.
The spacecraft, built by Lockheed Martin, is expected to last for 20 months. On its final orbit, Juno will dive into Jupiter’s atmosphere, where it will be crushed and vaporized.
Like Galileo, which circled Jupiter for eight years before crashing into the planet in 2003, Juno’s demise is designed to prevent any hitchhiking microbes from Earth from inadvertently contaminating Jupiter’s ocean-bearing moon Europa, a target of future study for extraterrestrial life.