After 37 years, Voyager 1 has fired up its trajectory thrusters

At present, the Voyager 1 spacecraft is 21 billion kilometers from Earth, or about 141 times the distance between the Earth and Sun. It has, in fact, moved beyond our Solar System into interstellar space. However, we can still communicate with Voyager across that distance.

This week, the scientists and engineers on the Voyager team did something very special. They commanded the spacecraft to fire a set of four trajectory thrusters for the first time in 37 years to determine their ability to orient the spacecraft using 10-millisecond pulses.
Further Reading
The Voyagers have reached an anniversary worth celebrating

After sending the commands on Tuesday, it took 19 hours and 35 minutes for the signal to reach Voyager. Then, the Earth-bound spacecraft team had to wait another 19 hours and 35 minutes to see if the spacecraft responded. It did. After nearly four decades of dormancy, the Aerojet Rocketdyne manufactured thrusters fired perfectly.
"The Voyager team got more excited each time with each milestone in the thruster test. The mood was one of relief, joy, and incredulity after witnessing these well-rested thrusters pick up the baton as if no time had passed at all," said Todd Barber, a propulsion engineer at the Jet Propulsion Laboratory in California.
Further Reading
A gallery of Voyager’s greatest hits—and they are truly great

In recent decades, Voyager had been relying on its primary thrusters to keep the spacecraft properly oriented so that it can maintain a communications link with Earth. But these attitude control thrusters have been degrading over time, requiring more and more energy each time they've been used.

By switching to the spacecraft's "trajectory correction maneuver" thrusters, last used during the spacecraft's encounter with Saturn in 1980, engineers say they will be able to extend the lifetime of Voyager by two or three more years before its waning power reserves expire.
Ars Science Video >
HoloPlayer One: The next chapter in holograms
Ars Technica sits down with Shawn Frayne, one of the creators of HoloPlayer One, the world's first interactive lightfield development kit.
Sponsor Content
An Inside Look At How Your Boss Thinks About The Cloud
Eric Berger
Eric Berger is the senior space editor at Ars Technica, covering everything from astronomy to private space to wonky NASA policy. A certified meteorologist, Eric lives in Houston. "The Voyager team got more excited each time with each milestone in the thruster test. The mood was one of relief, joy, and incredulity after witnessing these well-rested thrusters pick up the baton as if no time had passed at all," said Todd Barber, a propulsion engineer at the Jet Propulsion Laboratory in California.
Further Reading
A gallery of Voyager’s greatest hits—and they are truly great

In recent decades, Voyager had been relying on its primary thrusters to keep the spacecraft properly oriented so that it can maintain a communications link with Earth. But these attitude control thrusters have been degrading over time, requiring more and more energy each time they've been used.

By switching to the spacecraft's "trajectory correction maneuver" thrusters, last used during the spacecraft's encounter with Saturn in 1980, engineers say they will be able to extend the lifetime of Voyager by two or three more years before its waning power reserves expire.
Ars Science Video >
HoloPlayer One: The next chapter in holograms
Ars Technica sits down with Shawn Frayne, one of the creators of HoloPlayer One, the world's first interactive lightfield development kit.
Sponsor Content
An Inside Look At How Your Boss Thinks About The Cloud
Eric Berger
Eric Berger is the senior space editor at Ars Technica, covering everything from astronomy to private space to wonky NASA policy. A certified meteorologist, Eric lives in Houston.