Voyager 1 has crossed a new frontier, becoming the first spacecraft ever to leave the solar system, says NASA.
Thirty-six years after it was launched from Earth on a tour of the outer planets, the plutonium-powered probe is more than 18.5 billion kilometres from the sun, cruising through what scientists call interstellar space - the vast, cold emptiness between the stars, the space agency said.
Voyager 1 actually made its exit more than a year ago, according to NASA. But it's not as if there's a dotted boundary line out there or a signpost, and it was not until recently that the space agency had the evidence to convince it of what an outside research team had claimed last month: that the spacecraft had finally ploughed through the hot plasma bubble surrounding the planets and escaped the sun's influence.
While some scientists said they remain unconvinced, NASA celebrated.
"It's a milestone and the beginning of a new journey," said mission chief scientist Ed Stone at NASA's Jet Propulsion Laboratory in Pasadena.
Voyager 1 will now study exotic particles and other phenomena in a never-before-explored part of the universe and radio the data back to Earth, where the Voyager team awaits the starship's discoveries.
The interstellar ambassador also carries a gold-plated disc containing multicultural greetings, songs and photos, just in case it bumps into an intelligent species.
Voyager 1's odyssey began in 1977 when the spacecraft and its twin, Voyager 2, were launched on a tour of the gas giant planets of the solar system. After beaming back dazzling postcard views of Jupiter's giant red spot and Saturn's shimmering rings, Voyager 2 hopscotched to Uranus and Neptune. Meanwhile, Voyager 1 used Saturn as a gravitational slingshot to power itself past Pluto.
Voyager 1, which is about the size of a subcompact car, carries instruments that study magnetic fields, cosmic rays and solar wind.
Last year, scientists monitoring Voyager 1 noticed strange happenings that suggested the spacecraft had broken through: Charged particles streaming from the sun suddenly vanished. At the same time, there was a spike in galactic cosmic rays bursting in from the outside.
Since there was no detectable change in the direction of the magnetic field lines, the team assumed the far-flung craft was still in the heliosphere, or the vast bubble of charged particles around the sun.
The Voyager team patiently waited for a change in magnetic field direction - thought to be the telltale sign of a cosmic border crossing. But in the meantime, a chance solar eruption caused the space around Voyager 1 to echo like a bell last spring and provided the scientists with the data they needed, convincing them the boundary had been crossed in August of last year.
"It took us 10 seconds to realise we were in interstellar space," said Don Gurnett, a Voyager scientist at the University of Iowa who led the new research, published online in the journal Science.
The new observations are fascinating, but "it's premature to judge," said Lennard Fisk, a space science professor at the University of Michigan and former NASA associate administrator who was not part of the team. "Can we wait a little while longer? Maybe this picture will clear up the farther we go."
What bothers Fisk is the absence of a change in magnetic field direction.
Harvard astrophysicist Jonathan McDowell was more blunt: "I'm actually not going to believe it for another year or two until it's been solidly outside for a while."
While Voyager 1 may have left the solar system as most people understand it, it still has thousands of years to go before bidding adieu to the last icy bodies that make up our neighbourhood.
Voyager 2 trails behind at 15 billion kilometres from the sun. It may take another three years before Voyager 2 joins its twin on the other side. Eventually, the Voyagers will run out of nuclear fuel and will have to power down their instruments, perhaps by 2025.
AP
source: newshub archive
