At 47 years old, the pair of Voyager probes are the oldest currently operational deep space mission, and in their time they have traveled all the way through our solar system and out into the interstellar space that lies beyond the influence of our sun. At a distance of around 15.4 billion miles away from Earth, and with hardware constructed in the 1970s, the pair have faced their share of technical difficulties.
Voyager 1 in particular had a serious issue with its communications system this year that prevented it from transmitting science data for months. But now, following some very careful fixes, Voyager 1 is back online again, having resumed its science operations and continuing its long, lonely mission.
The communication problem was announced in December last year, when a system called the telemetry modulation unit stopped communicating with the probe’s computer system, called the flight data system. That issue was fixed in April this year, by engineers cleverly divvying up the work of a broken chip and distributing it throughout the functioning computer system. In June, Voyager 1 could power its science instruments back on and return to its observations.
That wasn’t the end of the probe’s problems though. In October, the spacecraft turned off one of its radio transmitters for no obvious reason, in what seemed to be an automatic response when the spacecraft detects a fault. Non-essential systems are designed to turn themselves off when an anomalous events occurs to prevent damage, such as from drawing too much power. But this meant that part of the communications system called the X-band radio transmitter was no longer working properly, and the spacecraft could only communicate using a weaker transmission system called the S-band.
It wasn’t clear if the S-band signal would even be strong enough to be picked up from Earth, but engineers were able to locate the signal and keep in touch with the spacecraft. This meant they weren’t able to get science data though, due to communication limitations.
Before they could turn the X-band transmitter back on, engineers had to figure out what had triggered the fault detection in the first place. It turns out to have been turning on a radiator that caused the fault, as the spacecraft is operating on such a tiny amount of power. Though its power generators output around 470 watts on launch, the spacecraft loses 4 watts of power each year, so power is a constant concern. The spacecraft currently uses four of its 10 original science instruments.
Engineers reactivated the X-band transmitter earlier this month, and has been collecting data again since last week. With a few final tasks like resetting a system that synchronizes the spacecraft’s three onboard computers, it will be back to full operations once again.
Georgina has been the space writer at Digital Trends space writer for six years, covering human space exploration, planetary…
How much fuel is left in this 20-year-old Mars orbiter?
Designing, building, and launching a spacecraft is hugely expensive. That's why NASA missions to Mars are designed with the hope that they'll last as long as possible -- like the famous Opportunity rover which was supposed to last for 90 days and managed to keep going for 15 years. The longer a mission can keep running, the more data it can collect, and the more we can learn from it.
That's true for the orbiters which travel around Mars as well as the rovers which explore its surface, like the Mars Odyssey spacecraft which was launched in 2001 and has been in orbit around Mars for more than 20 years. But the orbiter can't keep going forever as it will eventually run out of fuel, so figuring out exactly how much fuel is left is important -- but it also turned out to be more complicated than the NASA engineers were expecting.
Read more
30-year-old mission to study the magnetosphere comes to a close
A 30-year-old NASA-Japan Aerospace Exploration Agency (JAXA) mission has come to an end with the closing of operations on the Geotail satellite.
Launched in July 1992, Geotail was designed to study the Earth's magnetosphere. This is the region around Earth where particles are affected by our planet's magnetic field. It's important for our well-being as it protects us from dangerous space radiation. As this radiation comes primarily in the form of solar wind from the sun, the magnetosphere isn't a round bubble -- instead, it has a long tail shape on the night side of the planet caused by streaming particles from the sun.
Read more
Astronomers find remnants of planets around 10 billion-year-old stars
Far away in the depths of the Milky Way lie two small, dim stars that are in the final stage of their life. At over 10 billion years old, white dwarfs WDJ2147-4035 and WDJ1922+0233 are among the oldest stars in our galaxy, and recently, astronomers discovered something special orbiting around them: the remains of planets, making this one of the oldest known rocky planetary systems.
Astronomers used data from GAIA, the Dark Energy Survey, and the X-Shooter instrument at the European Southern Observatory to peer at this system. They identified debris from orbiting planetesimals, which are globs of dust and rock which are created during planetary formation. The researchers used spectroscopy to look at the light coming from the two white dwarf stars and break it down into different wavelengths, which can show what materials the stars and the surrounding matter are made of.
Read more