voyager 1 distance from solar system

Voyager 1 Ephemeris Calculator

Compute the position of Voyager 1 for any date and time between 1 January 2013 and 30 December 2099 and display the results on an interactive star map.

Voyager 1 is a space probe launched by NASA on September 5, 1977, to study the outer Solar System and beyond. It is currently the most distant human-made object from Earth, having traveled over 14 billion miles (23 billion kilometers) from the Sun. Voyager 1's mission has included flybys of Jupiter and Saturn, with the goal of studying their moons, rings, and magnetic fields. The probe is now traveling through the heliosheath , the outermost layer of the Sun's heliosphere, and is expected to enter interstellar space in the coming years. Voyager 1 carries a golden record that contains sounds and images selected to portray the diversity of life and culture on Earth, in the event that it is ever encountered by extraterrestrial life.

Voyager 1 is currently in the constellation of Ophiucus , at a distance of 24,329,060,661 kilometers from Earth.

Today's rise, transit and set times of Voyager 1 from Greenwich, United Kingdom edit_location_alt (all times relative to the local timezone Europe/London):

• Voyager 1 is above the horizon from Greenwich, United Kingdom edit_location_alt .
• Right now it is placed in the East direction at an altitude of 24° above the horizon.
• Go to interactive sky chart

If you need to access this information frequently for your observations, you can create a simple customized Quick Access page , so that you can easily bookmark it in your browser favorites or add a shortcut to your mobile phones' home screen.

• Position and finder charts (see also Where is Voyager 1? )
• Distance from Earth (see also How far is Voyager 1 from Earth? )
• When does Voyager 1 rise and set?
• Interactive orbit visualization . 3d visualization showing the orbit of Voyager 1 with respect to the major Solar System objects.
• 15 days ephemerides . Table showing celestial coordinates and magnitude of Voyager 1 for the past and next 7 days.
• Interactive sky chart . An online planetarium application that shows where to locate Voyager 1 in the sky from your location.
• Live position tracker . A high precision sky chart that uses real deep sky imagery to help locate Voyager 1 with your telescope or on your astrophotographies.

Voyager 1 Position and Finder Charts

Higher precision deep sky finder chart, 60 arcmin wide, showing where Voyager 1 is right now. Click on the image to see a more detailed fullscreen tracker view .

Also check out Where is Voyager 1? , a page that provides all the information needed to find Voyager 1 in the sky and additional links to sky charts.

Voyager 1 Distance from Earth

The distance of Voyager 1 from Earth is currently 24,329,060,661 kilometers, equivalent to 162.629726 Astronomical Units . Light takes 22 hours, 32 minutes and 33.0111 seconds to travel from Voyager 1 and arrive to us.

The following chart shows the distance of Voyager 1 from Earth as a function of time. In the chart the distance data is measured in Astronomical Units and sampled with an interval of 1 day.

Closest Approach of Voyager 1 to Earth

NOTE: values for the closest approach are computed with a sampling interval of 1 day.

Visualization of Voyager 1 Orbit

This 3d orbit diagram is a feature of our 3D Solar System Simulator and shows the orbit of Voyager 1 with respect of the Sun and the orbits of the major planets . The position of Voyager 1 and the planets along their orbits in this diagram accurately represents the current configuration of the objects in the Solar System. This is an experimental feature and it requires a WebGL enabled browser. Please provide us feedback !

Voyager 1 15 Days Ephemeris

The following table lists the ephemerides of Voyager 1 computed for the past and next 7 days, with a 24 hours interval. Click on each row of the table to locate Voyager 1 in our Online Planetarium at the chosen date.

• The Contents
• The Making of
• Where Are They Now
• Frequently Asked Questions
• Q & A with Ed Stone

golden record

Where are they now.

• frequently asked questions
• Q&A with Ed Stone

NASA’s Voyager Team Focuses on Software Patch, Thrusters

NASA Mission Update: Voyager 2 Communications Pause

NASA's Voyager Will Do More Science With New Power Strategy

Edward Stone Retires After 50 Years as NASA Voyager's Project Scientist

Voyager, NASA's Longest-Lived Mission, Logs 45 Years in Space

Voyager 1 distance from earth, voyager 1 distance from sun, voyager 1 one-way light time, voyager 1 cosmic ray data, voyager 2 distance from the earth, voyager 2 distance from the sun, voyager 2 one-way light time, voyager 2 cosmic ray data, what's happening now.

Since November 2023, NASA’s Voyager 1 spacecraft has been sending a steady radio signal to Earth, but the signal does not contain usable data.

Engineers are working to resolve an issue with one of Voyager 1’s three onboard computers, called the flight data system (FDS).

The efforts should help extend the lifetimes of the agency's interstellar explorers.

Download the Voyager 40th Anniversary posters.

Voyager 1 Trajectory through the Solar System

• Released Thursday, August 31, 2017
• Visualizations by:
• Tom Bridgman

This visualization tracks the trajectory of the Voyager 1 spacecraft through the solar system. Launched on September 5, 1977, it was one of two spacecraft sent to visit the giant planets of the outer solar system. Voyager 1 flew by Jupiter and Saturn before being directed out of the solar system. To fit the 40 year history of the mission into a short visualization, the pacing of time accelerates through most of the movie, starting at about 5 days per second at the beginning and speeding up to about 11 months per second after the planet flybys are past. The termination shock and heliopause are the 'boundaries' created when the plasma between the stars interacts with the plasma flowing outward from the Sun. They are represented with simple grid models and oriented so their 'nose' is pointed in the direction (Right Ascension = 17h 24m, declination = 17 degrees south) represented by more recent measurements from other missions.

Visualization centered on the Voyager 1 trajectory through the solar system.

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Voyager 1's 'Family Portrait' On Valentine's Day 1990, Voyager 1's camera were pointed back at the solar system to image the planets. Check out Voyager at NASA/JPL for more information.

• Voyager.ChaseV1.clockSlate_Track.UHD3840.00000_print.jpg (1024x576) [104.9 KB]

Opening view of Earth orbit looking outward to the rest of the solar system.

• Voyager.ChaseV1.clockSlate_Track.UHD3840.00550_print.jpg (1024x576) [117.4 KB]

Voyager 1 (and 2) cross the orbit of Mars, slightly above the ecliptic plane to avoid the asteroid belt between Mars & Jupiter.

• Voyager.ChaseV1.clockSlate_Track.UHD3840.01490_print.jpg (1024x576) [113.3 KB]

The camera moves out ahead of the Voyagers for a view back at the inner solar system.

• Voyager.ChaseV1.clockSlate_Track.UHD3840.01990_print.jpg (1024x576) [102.3 KB]

Voyager 1 just after the Jupiter flyby on March 5, 1979.

• Voyager.ChaseV1.clockSlate_Track.UHD3840.02420_print.jpg (1024x576) [101.8 KB]

Voyager 1 just before the Saturn flyby on November 12, 1980.

• Voyager.ChaseV1.clockSlate_Track.UHD3840.02990_print.jpg (1024x576) [123.1 KB]

With a gravity-assist from the Saturn flyby, Voyager 1 is directed above the plane of the solar system and continues outward. This is near the time of the Voyager 1 'Family Portrait'. The orbit of Pluto is the grey orbit visible above the orbits of the other planets.

• Voyager.ChaseV1.clockSlate_Track.UHD3840.03350_print.jpg (1024x576) [97.5 KB]

Voyager 1 crosses the termination shock of the solar wind. For simplified and symmetric termination shock model, the timing is not accurate. In reality, this crossing occurred around December of 2004.

• Voyager.ChaseV1.clockSlate_Track.UHD3840.03900_print.jpg (1024x576) [99.4 KB]

Voyager 1 (and 2) beyond the heliopause near the end of 2017.

A slightly sped-up version of the Voyager 1 visualization above, reducing the time for the Voyagers to cross the asteroid belt.

• Voyager1SpedUp.m4v (1920x1080) [123.0 MB]
• Voyager1SpedUp.webm (1920x1080) [12.2 MB]
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• Voyager1_Sped_Up.mov (1920x1080) [1.7 GB]
• Voyager_1_Sped_Up_4k-H264.mov (3840x2160) [639.6 MB]
• Voyager_1_Sped_Up_4k_ProRes.mov (3840x2160) [7.2 GB]
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• Solar System

Please give credit for this item to: NASA's Scientific Visualization Studio

• Tom Bridgman  (Global Science and Technology, Inc.)
• Kathalina Tran  (KBR Wyle Services, LLC)
• Genna Duberstein  (USRA)
• Scott Wiessinger  (USRA)

Project support

• Laurence Schuler  (ADNET Systems, Inc.)
• Ian Jones  (ADNET Systems, Inc.)

Release date

This page was originally published on Thursday, August 31, 2017. This page was last updated on Wednesday, November 15, 2023 at 12:05 AM EST.

• Voyager @ 40
• Voyager Retrospective

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Note: While we identify the data sets used in these visualizations, we do not store any further details, nor the data sets themselves on our site.

Hubble’s Brand New Image of Jupiter

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September 12, 2013

Voyager 1 Finally Leaves Solar System—for Real This Time

After much debate over the murky boundary of interstellar space, a solar eruption gives scientists the evidence to say Voyager 1 has finally crossed it

By Clara Moskowitz

Voyager 1 was starting to get a reputation as the spacecraft that cried wolf, after scientists repeatedly claimed it was leaving the solar system, only to change their minds and say it wasn’t quite there yet . Now researchers say new evidence shows Voyager really has departed the sun’s sphere of influence and become the first man-made object to reach interstellar space.

Voyager 1, launched in 1977, is speeding away from us, traveling about 3.5 times the Earth–sun distance every year. The probe is now about 18.2 billion kilometers from Earth, farther away than anything human beings have sent into space. (Its sister spacecraft, Voyager 2, launched more than a month earlier, took a more circuitous path from Earth and is now about 14.8 billion kilometers away.)

Scientists have long been expecting Voyager 1 to exit the bubble of space containing particles from the sun, called the heliosphere, and enter a region where particles are much more plentiful and come from ancient explosions of other stars. But because Voyager 1 has lost its ability to measure this particle plasma, there was no easy way to tell when the transition had occurred .

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A boon came from an eruption on the sun in March 2012, which sent waves of solar material out into space. When this ejection reached Voyager 1 13 months later in April 2013, it set the local plasma vibrating. Voyager 1's plasma wave instrument (separate from the defunct plasma particle detector) was able to measure the pitch of these vibrations, which in turn reflected the density of plasma around the spacecraft. The results show that Voyager 1 is surrounded by plasma more than 40 times denser than it encountered earlier, when it was in the heliosphere. “Because there’s no other possible conclusion, I think we’re forced to and obliged to conclude that we’re truly in the interstellar medium,” physicist Gary Zank of the University of Alabama in Huntsville said during a press conference today.

Based on abrupt changes in the apparent plasma density around the spacecraft, the researchers were even able to pinpoint August 25, 2012 as the most likely date that Voyager 1 left the solar system , crossing the heliopause, the boundary between the heliosphere and the interstellar medium.

The “little spacecraft that could,” in the words of project manager Suzanne Dodd of the NASA Jet Propulsion Laboratory in Pasadena, Calif., is getting old in years and is technologically weak: the average smartphone has thousands of times more memory than the spacecraft. Yet most of Voyager 1’s instruments still work, and they continue to send signals back to Earth. The team estimates the probe still has enough power from its plutonium power plant to operate all its instruments through 2020, when it will begin shutting them off one by one, until it goes dark in 2025. That still gives Voyager 1 more than a decade to study the realm of the universe it has entered. “It marks the beginning of a new era of exploration for Voyager: the exploration of the space between the stars,” said Ed Stone, Voyager’s longtime project scientist.

The new findings represent a turnaround for the Voyager team, which as recently as June predicted the spacecraft may have years to go before it reached interstellar space. But the latest data remove most of the team members’ doubts, Stone said.

The new report, published online today in Science, also agrees with the conclusions of a separate paper claiming Voyager 1 had left the solar system, based on magnetic field data, which was published August 14 in The Astrophysical Journal Letters. The lead author of that paper, University of Maryland, College Park, physicist Marc Swisdak, says the two projects are complementary. “I thought the authors make an excellent case for their measurements and their interpretation,” Swisdak says.

Over the course of 36 years, between the two of them, the Voyager probes have visited all the outer planets of the solar system and discovered 23 moons around these worlds. They also each carry time capsules in the form of phonograph records loaded with recordings of music, natural sounds, voice greetings in 56 languages, and photographs and diagrams of life on Earth. Voyager 1 is on a course that should eventually take it within 1.6 light-years of a star called AC+79 3888, which lies in the constellation of Camelopardalis. It’s due to arrive in about 40,000 years, long after the spacecraft loses its ability to tell whomever is on Earth what comes of that encounter.

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Voyager 1, First Craft in Interstellar Space, May Have Gone Dark

The 46-year-old probe, which flew by Jupiter and Saturn in its youth and inspired earthlings with images of the planet as a “Pale Blue Dot,” hasn’t sent usable data from interstellar space in months.

By Orlando Mayorquin

When Voyager 1 launched in 1977, scientists hoped it could do what it was built to do and take up-close images of Jupiter and Saturn. It did that — and much more.

Voyager 1 discovered active volcanoes, moons and planetary rings, proving along the way that Earth and all of humanity could be squished into a single pixel in a photograph, a “ pale blue dot, ” as the astronomer Carl Sagan called it. It stretched a four-year mission into the present day, embarking on the deepest journey ever into space.

Now, it may have bid its final farewell to that faraway dot.

Voyager 1 , the farthest man-made object in space, hasn’t sent coherent data to Earth since November. NASA has been trying to diagnose what the Voyager mission’s project manager, Suzanne Dodd, called the “most serious issue” the robotic probe has faced since she took the job in 2010.

The spacecraft encountered a glitch in one of its computers that has eliminated its ability to send engineering and science data back to Earth.

The loss of Voyager 1 would cap decades of scientific breakthroughs and signal the beginning of the end for a mission that has given shape to humanity’s most distant ambition and inspired generations to look to the skies.

“Scientifically, it’s a big loss,” Ms. Dodd said. “I think — emotionally — it’s maybe even a bigger loss.”

Voyager 1 is one half of the Voyager mission. It has a twin spacecraft, Voyager 2.

Launched in 1977, they were primarily built for a four-year trip to Jupiter and Saturn , expanding on earlier flybys by the Pioneer 10 and 11 probes.

The Voyager mission capitalized on a rare alignment of the outer planets — once every 175 years — allowing the probes to visit all four.

Using the gravity of each planet, the Voyager spacecraft could swing onto the next, according to NASA .

The mission to Jupiter and Saturn was a success.

The 1980s flybys yielded several new discoveries, including new insights about the so-called great red spot on Jupiter, the rings around Saturn and the many moons of each planet.

Voyager 2 also explored Uranus and Neptune , becoming in 1989 the only spacecraft to explore all four outer planets.

Voyager 1, meanwhile, had set a course for deep space, using its camera to photograph the planets it was leaving behind along the way. Voyager 2 would later begin its own trek into deep space.

“Anybody who is interested in space is interested in the things Voyager discovered about the outer planets and their moons,” said Kate Howells, the public education specialist at the Planetary Society, an organization co-founded by Dr. Sagan to promote space exploration.

“But I think the pale blue dot was one of those things that was sort of more poetic and touching,” she added.

On Valentine’s Day 1990, Voyager 1, darting 3.7 billion miles away from the sun toward the outer reaches of the solar system, turned around and snapped a photo of Earth that Dr. Sagan and others understood to be a humbling self-portrait of humanity.

“It’s known the world over, and it does connect humanity to the stars,” Ms. Dodd said of the mission.

She added: “I’ve had many, many many people come up to me and say: ‘Wow, I love Voyager. It’s what got me excited about space. It’s what got me thinking about our place here on Earth and what that means.’”

Ms. Howells, 35, counts herself among those people.

About 10 years ago, to celebrate the beginning of her space career, Ms. Howells spent her first paycheck from the Planetary Society to get a Voyager tattoo.

Though spacecraft “all kind of look the same,” she said, more people recognize the tattoo than she anticipated.

“I think that speaks to how famous Voyager is,” she said.

The Voyagers made their mark on popular culture , inspiring a highly intelligent “Voyager 6” in “Star Trek: The Motion Picture” and references on “The X Files” and “The West Wing.”

Even as more advanced probes were launched from Earth, Voyager 1 continued to reliably enrich our understanding of space.

In 2012, it became the first man-made object to exit the heliosphere, the space around the solar system directly influenced by the sun. There is a technical debate among scientists around whether Voyager 1 has actually left the solar system, but, nonetheless, it became interstellar — traversing the space between stars.

That charted a new path for heliophysics, which looks at how the sun influences the space around it. In 2018, Voyager 2 followed its twin between the stars.

Before Voyager 1, scientific data on the sun’s gases and material came only from within the heliosphere’s confines, according to Dr. Jamie Rankin, Voyager’s deputy project scientist.

“And so now we can for the first time kind of connect the inside-out view from the outside-in,” Dr. Rankin said, “That’s a big part of it,” she added. “But the other half is simply that a lot of this material can’t be measured any other way than sending a spacecraft out there.”

Voyager 1 and 2 are the only such spacecraft. Before it went offline, Voyager 1 had been studying an anomalous disturbance in the magnetic field and plasma particles in interstellar space.

“Nothing else is getting launched to go out there,” Ms. Dodd said. “So that’s why we’re spending the time and being careful about trying to recover this spacecraft — because the science is so valuable.”

But recovery means getting under the hood of an aging spacecraft more than 15 billion miles away, equipped with the technology of yesteryear. It takes 45 hours to exchange information with the craft.

It has been repeated over the years that a smartphone has hundreds of thousands of times Voyager 1’s memory — and that the radio transmitter emits as many watts as a refrigerator lightbulb.

“There was one analogy given that is it’s like trying to figure out where your cursor is on your laptop screen when your laptop screen doesn’t work,” Ms. Dodd said.

Her team is still holding out hope, she said, especially as the tantalizing 50th launch anniversary in 2027 approaches. Voyager 1 has survived glitches before, though none as serious.

Voyager 2 is still operational, but aging. It has faced its own technical difficulties too.

NASA had already estimated that the nuclear-powered generators of both spacecrafts would likely die around 2025.

Even if the Voyager interstellar mission is near its end, the voyage still has far to go.

Voyager 1 and its twin, each 40,000 years away from the next closest star, will arguably remain on an indefinite mission.

“If Voyager should sometime in its distant future encounter beings from some other civilization in space, it bears a message,” Dr. Sagan said in a 1980 interview .

Each spacecraft carries a gold-plated phonograph record loaded with an array of sound recordings and images representing humanity’s richness, its diverse cultures and life on Earth.

“A gift across the cosmic ocean from one island of civilization to another,” Dr. Sagan said.

Orlando Mayorquin is a general assignment and breaking news reporter based in New York. More about Orlando Mayorquin

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Hope returns —

Nasa knows what knocked voyager 1 offline, but it will take a while to fix, "engineers are optimistic they can find a way for the fds to operate normally.".

Stephen Clark - Apr 6, 2024 12:28 am UTC

Engineers have determined why NASA's Voyager 1 probe has been transmitting gibberish for nearly five months, raising hopes of recovering humanity's most distant spacecraft.

Voyager 1, traveling outbound some 15 billion miles (24 billion km) from Earth, started beaming unreadable data down to ground controllers on November 14. For nearly four months, NASA knew Voyager 1 was still alive—it continued to broadcast a steady signal—but could not decipher anything it was saying.

Confirming their hypothesis, engineers at NASA's Jet Propulsion Laboratory (JPL) in California confirmed a small portion of corrupted memory caused the problem. The faulty memory bank is located in Voyager 1's Flight Data System (FDS), one of three computers on the spacecraft. The FDS operates alongside a command-and-control central computer and another device overseeing attitude control and pointing.

The FDS duties include packaging Voyager 1's science and engineering data for relay to Earth through the craft's Telemetry Modulation Unit and radio transmitter. According to NASA, about 3 percent of the FDS memory has been corrupted, preventing the computer from carrying out normal operations.

Optimism growing

Suzanne Dodd, NASA's project manager for the twin Voyager probes, told Ars in February that this was one of the most serious problems the mission has ever faced. That is saying something because Voyager 1 and 2 are NASA's longest-lived spacecraft. They launched 16 days apart in 1977, and after flying by Jupiter and Saturn, Voyager 1 is flying farther from Earth than any spacecraft in history. Voyager 2 is trailing Voyager 1 by about 2.5 billion miles, although the probes are heading out of the Solar System in different directions.

Normally, engineers would try to diagnose a spacecraft malfunction by analyzing data it sent back to Earth. They couldn't do that in this case because Voyager 1 has been transmitting data packages manifesting a repeating pattern of ones and zeros. Still, Voyager 1's ground team identified the FDS as the likely source of the problem.

The Flight Data Subsystem was an innovation in computing when it was developed five decades ago. It was the first computer on a spacecraft to use volatile memory. Most of NASA's missions operate with redundancy, so each Voyager spacecraft launched with two FDS computers. But the backup FDS on Voyager 1 failed in 1982.

Due to the Voyagers' age, engineers had to reference paper documents, memos, and blueprints to help understand the spacecraft's design details. After months of brainstorming and planning, teams at JPL uplinked a command in early March to prompt the spacecraft to send back a readout of the FDS memory.

The command worked, and Voyager1 responded with a signal different from the code it had been transmitting since November. After several weeks of meticulous examination of the new code, engineers pinpointed the location of the bad memory.

"The team suspects that a single chip responsible for storing part of the affected portion of the FDS memory isn’t working," NASA said in an update posted Thursday. "Engineers can’t determine with certainty what caused the issue. Two possibilities are that the chip could have been hit by an energetic particle from space or that it simply may have worn out after 46 years."

Voyager 1's distance from Earth complicates the troubleshooting effort. The one-way travel time for a radio signal to reach Voyager 1 from Earth is about 22.5 hours, meaning it takes roughly 45 hours for engineers on the ground to learn how the spacecraft responded to their commands.

NASA also must use its largest communications antennas to contact Voyager 1. These 230-foot-diameter (70-meter) antennas are in high demand by many other NASA spacecraft , so the Voyager team has to compete with other missions to secure time for troubleshooting. This means it will take time to get Voyager 1 back to normal operations.

"Although it may take weeks or months, engineers are optimistic they can find a way for the FDS to operate normally without the unusable memory hardware, which would enable Voyager 1 to begin returning science and engineering data again," NASA said.

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Voyager 1: 'The Spacecraft That Could' Hits New Milestone

Voyager 1, already the most distant human-made object in the cosmos, reaches 100 astronomical units from the sun on Tuesday, August 15 at 5:13 p.m. Eastern time (2:13 p.m. Pacific time).

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NASA engineers discover why Voyager 1 is sending a stream of gibberish from outside our solar system

Voyager 1 has been sending a stream of garbled nonsense since November. Now NASA engineers have identified the fault and found a potential workaround.

For the past five months, the Voyager 1 spacecraft has been sending a steady stream of unreadable gibberish back to Earth. Now, NASA engineers finally know why.

The 46-year-old spacecraft sends regular radio signals as it drifts further from our solar system . But in November 2023, the signals suddenly became garbled, meaning  scientists were unable to read any of its data, and they were left mystified about the fault's origins. 

In March, NASA engineers sent a command prompt, or "poke," to the craft to get a readout from its flight data subsystem (FDS) — which packages Voyager 1's science and engineering data before beaming it back to Earth. 

After decoding the spacecraft's response, the engineers have found the source of the problem: The FDS's memory has been corrupted.

Related: NASA's Voyager 1 sends readable message to Earth after 4 nail-biting months of gibberish

"The team suspects that a single chip responsible for storing part of the affected portion of the FDS memory isn't working," NASA said in a blog post Wednesday (March 13) . "Engineers can't determine with certainty what caused the issue. Two possibilities are that the chip could have been hit by an energetic particle from space or that it simply may have worn out after 46 years."

— NASA hears 'heartbeat' signal from Voyager 2 probe a week after losing contact

— Historic space photo of the week: Voyager 2 spies a storm on Saturn 42 years ago

— NASA reestablishes full contact with Voyager 2 probe after nail-biting 2-week blackout

Although it may take several months, the engineers say they can find a workaround to run the FDS without the fried chip — restoring the spacecraft's messaging output and enabling it to continue to send readable information from outside our solar system.

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Launched in 1977, Voyager 1 zipped past Saturn and Jupiter in 1979 and 1980 before flying out into interstellar space in 2012. It is now recording the conditions outside of the sun's protective magnetic field , or heliosphere, which blankets our solar system.

Voyager 1 is currently more than 15 billion miles (24 billion kilometers) from Earth, and it takes 22.5 hours for any radio signal to travel from the craft to our planet.

Ben Turner is a U.K. based staff writer at Live Science. He covers physics and astronomy, among other topics like tech and climate change. He graduated from University College London with a degree in particle physics before training as a journalist. When he's not writing, Ben enjoys reading literature, playing the guitar and embarrassing himself with chess.

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• TorbjornLarsson Bon voyage, Voyager! Reply
• Jay McHue What if aliens are doing it to try to communicate with us? 🤪 Reply

Jay McHue said: What if aliens are doing it to try to communicate with us? 🤪

admin said: Voyager 1 has been sending a stream of garbled nonsense since November. Now NASA engineers have identified the fault and found a potential workaround. NASA engineers discover why Voyager 1 is sending a stream of gibberish from outside our solar system : Read more

sourloaf said: What does FSB mean?

Rusty Lugnuts said: Where are you seeing "FSB"? The closest thing I can see in the article is "FDS". In modern computers, FSB would most likely refer to the Fr0nt S1ide Bu5, though I have no idea if a system as old as Voyagers, let alone engineered so specifically, would have an FSB. (apparently I can't spell out "Fr0nt S1ide Bu5" or my post gets flagged as spam or inappropriate??)

• SkidWard Just cut the % of ram needed... skip the bad sectors Reply
• kloudykat FDS = fl1ght da1a sub5ystem5 Reply
• 5ft24dave This is pretty old news, like 6 months old. Are you guys just now discovering this? Reply

Commodore Browncoat said: That's about as sane a theory as many of the others that have become ridiculously popular in the past several years, so sure - why not? What reply do you think we should send?

• View All 11 Comments

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We finally know why NASA's Voyager 1 spacecraft stopped communicating — scientists are working on a fix

The first spacecraft to explore beyond the solar system started spouting gibberish late last year. Now, NASA knows why.

NASA engineers have discovered the cause of a communications breakdown between Earth and the interstellar explorer Voyager 1. It would appear that a small portion of corrupted memory exists in one of the spacecraft's computers. 

The glitch caused Voyager 1 to send unreadable data back to Earth, and is found in the NASA spacecraft's flight data subsystem (FDS). That's the system responsible for packaging the probe's science and engineering data before the telemetry modulation unit (TMU) and radio transmitter send it back to mission control. 

The source of the issue began to reveal itself when Voyager 1 operators sent the spacecraft a "poke" on March 3, 2024. This was intended to prompt FDS to send a full memory readout back to Earth.

The readout confirmed to the NASA team that about 3% of the FDS memory had been corrupted, and that this was preventing the computer from carrying out its normal operations.

Related: NASA finds clue while solving Voyager 1's communication breakdown case

Launched in 1977, Voyager 1 became the first human-made object to leave the solar system and enter interstellar space in 2012. Voyager 2 followed its spacecraft sibling out of the solar system in 2018, and is still operational and communicating well with  Earth.

After 11 years of interstellar exploration, in Nov. 2023, Voyager 1's binary code — the computer language it uses to communicate with Earth — stopped making sense. Its 0's and 1's didn't mean anything anymore.

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"Effectively, the call between the spacecraft and the Earth was still connected, but Voyager's 'voice' was replaced with a monotonous dial tone," Voyager 1's engineering team previously  told Space.com .

The team strongly suspects this glitch is the result of a single chip that's responsible for storing part of the affected portion of the FDS memory ceasing to work.

Currently, however, NASA can’t say for sure what exactly caused that particular issue. The chip could have been struck by a high-speed energetic particle from space or, after 46 years serving Voyager 1, it may simply have worn out.

—  Voyager 2: An iconic spacecraft that's still exploring 45 years on

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Voyager 1 currently sits around 15 billion miles (24 billion kilometers) from Earth, which means it takes 22.5 hours to receive a radio signal from it — and another 22.5 hours for the spacecraft to receive a response via the Deep Space Network's antennas. Solving this communication issue is thus no mean feat.

Yet, NASA scientists and engineers are optimistic they can find a way to help FDS operate normally, even without the unusable memory hardware.

Solving this issue could take weeks or even months, according to NASA — but if it is resolved, Voyager 1 should be able to resume returning science data about what lies outside the solar system.

Join our Space Forums to keep talking space on the latest missions, night sky and more! And if you have a news tip, correction or comment, let us know at: [email protected].

Robert Lea is a science journalist in the U.K. whose articles have been published in Physics World, New Scientist, Astronomy Magazine, All About Space, Newsweek and ZME Science. He also writes about science communication for Elsevier and the European Journal of Physics. Rob holds a bachelor of science degree in physics and astronomy from the U.K.’s Open University. Follow him on Twitter @sciencef1rst.

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• jcs Funny timing for this article, when I am streaming an old Star Trek movie. So, surely this didn't cause a 3 byte glitch removing the O, Y and A from Voyager's name buffer? Get it? Reply
• bwana4swahili It is quite amazing it has lasted this long in a space environment. Reply

bwana4swahili said: It is quite amazing it has lasted this long in a space environment.

• HankySpanky So now we know even better for next time. Perhaps a spare chipset that is not redundant but is ready to take over, stored in a protective environment. A task NASA can handle. We'll find out in 100 year or so - if humanity still exists. Reply

HankySpanky said: So now we know even better for next time. Perhaps a spare chipset that is not redundant but is ready to take over, stored in a protective environment. A task NASA can handle. We'll find out in 100 year or so - if humanity still exists.

• Classical Motion I'm afraid it might self repair. And download galactic knowledge, then decide we are a danger. And turn around. Reply

Classical Motion said: I'm afraid it might self repair. And download galactic knowledge, then decide we are a danger. And turn around.

• jcs ROFLOL! And a hot bald chick delivering the bad news! Reply
• View All 8 Comments

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Scientists Figured Out How to Probe the Boundary of the Solar System

A revolutionary model paves the way for a journey to the Sun’s outer shield.

• While NASA has sent two probes out past our heliosphere—Voyager 1 and 2—there’s still a lot we don’t know about the protective shield around the Solar System.
• A proposed Interstellar Probe Mission could send a spacecraft to investigate these long-standing mysteries, and a new study analyzes how that probe should exit our planetary system.
• By exiting toward the tailward section of the heliosphere, a mission would maximize its scientific output and opportunities.

And in a new study led by the University of Michigan (U-M), scientists propose the best path that a future spacecraft could take to exit the heliosphere. This isn’t necessarily the fastest way to exit the cul-de-sac of our galactic neighborhood—rather, it’s the path that best positions any future spacecraft for studying the shape of the heliopause. And in order to do that, you’ve got to leave the Solar System .

“Without such a mission, we are like goldfish trying to understand the fishbowl from the inside,” Sarah A. Spitzer, a research fellow at U-M and first author on a study in the journal Frontiers in Astronomy and Space Sciences that describes this “escape route,” said in a press statement . “A future interstellar probe mission will be our first opportunity to really see our heliosphere, our home, from the outside, and to better understand its place in the local interstellar medium.”

Despite its name, the heliosphere is not a sphere. Instead, it has both a nose and tail section—the former being where the heliosphere is closest to the Sun (and pointed in the direction of its galactic journey), and the latter extending off from this point, somewhat similar to a comet.

In 2021, a collaboration of more than 1,000 scientists developed a mission concept report that detailed a possible future interstellar mission. While the report discusses various launch vehicles and payloads, it also discusses possible trajectories. While the original report suggested sending a spacecraft 45 degrees off the nose, the U-M report challenges that conclusion. It instead suggests sending the scientific payload on “a trajectory intersecting the heliospheric flank toward the tailward direction,” which will provide the best perspective and opportunity for conducting a wide range of experiments.

“We want to know how the heliosphere protects astronauts and life in general from harmful galactic radiation, but that is difficult to do when we still don’t even know the shape of our shield,” co-author Marc Kornbleuth, a Boston University research scientist, said in a press statement. “If you want to find out how far back your house extends, walking out the front door and taking a picture from the front sidewalk is likely not your best option. The best way is to go out the side door so you can see how long it is from front to back.”

This position also comes with other advantages, as models suggest that interstellar plasma may enter the heliosphere through the tail, providing another unprecedented research opportunity.

So, while Voyager 1 and 2 were humanity’s first attempts at stretching beyond our own star system, they likely won’t be our last.

Darren lives in Portland, has a cat, and writes/edits about sci-fi and how our world works. You can find his previous stuff at Gizmodo and Paste if you look hard enough. 

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NASA Decodes the Reason Behind Voyager 1's Garbled Transmissions

For months, NASA's Voyager team has been struggling to translate garbled messages from beyond our solar system. Voyager 1 has been responding to NASA's data requests with tangles of 1s and 0s, none of which have made sense to anyone at the agency. But now, thanks to a "poke command" issued in March, the spacecraft seems to have helped scientists identify the error behind its wonky transmissions. 

NASA had just managed to solve an issue with Voyager 1's attitude articulation and control system (AACS) in 2022 when a new glitch arose, jumbling the probe's flight data. This raw data is supposed to convey information about what Voyager 1's various scientific instruments have gleaned from remote regions of the Milky Way, but instead, it was just a mysterious stream of unintelligible numbers. Getting the spacecraft to return to its original "language" has been a challenge ever since, in part because most of the folks who originally worked on Voyager 1 are no longer alive .

In March, NASA sent Voyager 1 a poke command, or a command that directly modifies a system's memory addresses. Though poke commands are a fairly antiquated concept, they're occasionally useful for low-level memory control—a stone the Voyager team couldn't leave unturned. Their command prompted Voyager 1's system into using a different readout sequence for its software package than it typically defaults to, and about 22 hours later, NASA found itself with a new clue.

According to a Voyager mission blog post , activity from one portion of Voyager 1's flight data system (FDS) stood out from the probe's previous unreadable transmissions. A single engineer involved in NASA's Deep Space Network saw that the data contained a readout of Voyager 1's full FDS memory. This, the engineer noticed, offered the team an opportunity to compare and contrast Voyager 1's previous FDS readout with the latest snapshot of its inner workings.   

NASA has since used the decoded readout to determine that roughly 3 percent of the probe's memory is corrupted. This may explain why restarting the FDS didn't resolve the issue back in November: If a system's memory has degraded, turning that system off and back on again won't do anything to bring it back. Luckily, engineers at the Voyager mission think the corruption is confined to just one chip, which could make the issue easier to circumvent or resolve.