disk on voyager

The most distant human-made object

No spacecraft has gone farther than NASA's Voyager 1. Launched in 1977 to fly by Jupiter and Saturn, Voyager 1 crossed into interstellar space in August 2012 and continues to collect data.

Mission Type

What is Voyager 1?

Voyager 1 has been exploring our solar system for more than 45 years. The probe is now in interstellar space, the region outside the heliopause, or the bubble of energetic particles and magnetic fields from the Sun.

• Voyager 1 was the first spacecraft to cross the heliosphere, the boundary where the influences outside our solar system are stronger than those from our Sun.
• Voyager 1 is the first human-made object to venture into interstellar space.
• Voyager 1 discovered a thin ring around Jupiter and two new Jovian moons: Thebe and Metis.
• At Saturn, Voyager 1 found five new moons and a new ring called the G-ring.

In Depth: Voyager 1

Voyager 1 was launched after Voyager 2, but because of a faster route, it exited the asteroid belt earlier than its twin, having overtaken Voyager 2 on Dec. 15, 1977.

Voyager 1 at Jupiter

Voyager 1 began its Jovian imaging mission in April 1978 at a range of 165 million miles (265 million km) from the planet. Images sent back by January the following year indicated that Jupiter’s atmosphere was more turbulent than during the Pioneer flybys in 1973–1974.

Beginning on January 30, Voyager 1 took a picture every 96 seconds for a span of 100 hours to generate a color timelapse movie to depict 10 rotations of Jupiter. On Feb. 10, 1979, the spacecraft crossed into the Jovian moon system and by early March, it had already discovered a thin (less than 30 kilometers thick) ring circling Jupiter.

Voyager 1’s closest encounter with Jupiter was at 12:05 UT on March 5, 1979 at a range of about 174,000 miles (280,000 km). It encountered several of Jupiter’s Moons, including Amalthea, Io, Europa, Ganymede, and Callisto, returning spectacular photos of their terrain, opening up completely new worlds for planetary scientists.

The most interesting find was on Io, where images showed a bizarre yellow, orange, and brown world with at least eight active volcanoes spewing material into space, making it one of the most (if not the most) geologically active planetary body in the solar system. The presence of active volcanoes suggested that the sulfur and oxygen in Jovian space may be a result of the volcanic plumes from Io which are rich in sulfur dioxide. The spacecraft also discovered two new moons, Thebe and Metis.

Voyager 1 at Saturn

Following the Jupiter encounter, Voyager 1 completed an initial course correction on April 9, 1979 in preparation for its meeting with Saturn. A second correction on Oct. 10, 1979 ensured that the spacecraft would not hit Saturn’s moon Titan.

Its flyby of the Saturn system in November 1979 was as spectacular as its previous encounter. Voyager 1 found five new moons, a ring system consisting of thousands of bands, wedge-shaped transient clouds of tiny particles in the B ring that scientists called “spokes,” a new ring (the “G-ring”), and “shepherding” satellites on either side of the F-ring—satellites that keep the rings well-defined.

During its flyby, the spacecraft photographed Saturn’s moons Titan, Mimas, Enceladus, Tethys, Dione, and Rhea. Based on incoming data, all the moons appeared to be composed largely of water ice. Perhaps the most interesting target was Titan, which Voyager 1 passed at 05:41 UT on November 12 at a range of 2,500 miles (4,000 km). Images showed a thick atmosphere that completely hid the surface. The spacecraft found that the moon’s atmosphere was composed of 90% nitrogen. Pressure ad temperature at the surface was 1.6 atmospheres and 356 °F (–180°C), respectively.

Atmospheric data suggested that Titan might be the first body in the solar system (apart from Earth) where liquid might exist on the surface. In addition, the presence of nitrogen, methane, and more complex hydrocarbons indicated that prebiotic chemical reactions might be possible on Titan.

Voyager 1’s closest approach to Saturn was at 23:46 UT on 12 Nov. 12, 1980 at a range of 78,000 miles(126,000 km).

Voyager 1’s ‘Family Portrait’ Image

Following the encounter with Saturn, Voyager 1 headed on a trajectory escaping the solar system at a speed of about 3.5 AU per year, 35° out of the ecliptic plane to the north, in the general direction of the Sun’s motion relative to nearby stars. Because of the specific requirements for the Titan flyby, the spacecraft was not directed to Uranus and Neptune.

The final images taken by the Voyagers comprised a mosaic of 64 images taken by Voyager 1 on Feb. 14, 1990 at a distance of 40 AU of the Sun and all the planets of the solar system (although Mercury and Mars did not appear, the former because it was too close to the Sun and the latter because Mars was on the same side of the Sun as Voyager 1 so only its dark side faced the cameras).

This was the so-called “pale blue dot” image made famous by Cornell University professor and Voyager science team member Carl Sagan (1934-1996). These were the last of a total of 67,000 images taken by the two spacecraft.

Voyager 1’s Interstellar Mission

All the planetary encounters finally over in 1989, the missions of Voyager 1 and 2 were declared part of the Voyager Interstellar Mission (VIM), which officially began on Jan. 1, 1990.

The goal was to extend NASA’s exploration of the solar system beyond the neighborhood of the outer planets to the outer limits of the Sun’s sphere of influence, and “possibly beyond.” Specific goals include collecting data on the transition between the heliosphere, the region of space dominated by the Sun’s magnetic field and solar field, and the interstellar medium.

On Feb. 17, 1998, Voyager 1 became the most distant human-made object in existence when, at a distance of 69.4 AU from the Sun when it “overtook” Pioneer 10.

On Dec. 16, 2004, Voyager scientists announced that Voyager 1 had reported high values for the intensity for the magnetic field at a distance of 94 AU, indicating that it had reached the termination shock and had now entered the heliosheath.

The spacecraft finally exited the heliosphere and began measuring the interstellar environment on Aug. 25, 2012, the first spacecraft to do so.

On Sept. 5, 2017, NASA marked the 40th anniversary of its launch, as it continues to communicate with NASA’s Deep Space Network and send data back from four still-functioning instruments—the cosmic ray telescope, the low-energy charged particles experiment, the magnetometer, and the plasma waves experiment.

The Golden Record

Each of the Voyagers contain a “message,” prepared by a team headed by Carl Sagan, in the form of a 12-inch (30 cm) diameter gold-plated copper disc for potential extraterrestrials who might find the spacecraft. Like the plaques on Pioneers 10 and 11, the record has inscribed symbols to show the location of Earth relative to several pulsars.

The records also contain instructions to play them using a cartridge and a needle, much like a vinyl record player. The audio on the disc includes greetings in 55 languages, 35 sounds from life on Earth (such as whale songs, laughter, etc.), 90 minutes of generally Western music including everything from Mozart and Bach to Chuck Berry and Blind Willie Johnson. It also includes 115 images of life on Earth and recorded greetings from then U.S. President Jimmy Carter (1924– ) and then-UN Secretary-General Kurt Waldheim (1918–2007).

By January 2024, Voyager 1 was about 136 AU (15 billion miles, or 20 billion kilometers) from Earth, the farthest object created by humans, and moving at a velocity of about 38,000 mph (17.0 kilometers/second) relative to the Sun.

National Space Science Data Center: Voyager 1

A library of technical details and historic perspective.

Beyond Earth: A Chronicle of Deep Space Exploration

A comprehensive history of missions sent to explore beyond Earth.

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The Voyager Golden Record

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How the Voyager Golden Record Was Made

By Timothy Ferris

We inhabit a small planet orbiting a medium-sized star about two-thirds of the way out from the center of the Milky Way galaxy—around where Track 2 on an LP record might begin. In cosmic terms, we are tiny: were the galaxy the size of a typical LP, the sun and all its planets would fit inside an atom’s width. Yet there is something in us so expansive that, four decades ago, we made a time capsule full of music and photographs from Earth and flung it out into the universe. Indeed, we made two of them.

The time capsules, really a pair of phonograph records, were launched aboard the twin Voyager space probes in August and September of 1977. The craft spent thirteen years reconnoitering the sun’s outer planets, beaming back valuable data and images of incomparable beauty . In 2012, Voyager 1 became the first human-made object to leave the solar system, sailing through the doldrums where the stream of charged particles from our sun stalls against those of interstellar space. Today, the probes are so distant that their radio signals, travelling at the speed of light, take more than fifteen hours to reach Earth. They arrive with a strength of under a millionth of a billionth of a watt, so weak that the three dish antennas of the Deep Space Network’s interplanetary tracking system (in California, Spain, and Australia) had to be enlarged to stay in touch with them.

If you perched on Voyager 1 now—which would be possible, if uncomfortable; the spidery craft is about the size and mass of a subcompact car—you’d have no sense of motion. The brightest star in sight would be our sun, a glowing point of light below Orion’s foot, with Earth a dim blue dot lost in its glare. Remain patiently onboard for millions of years, and you’d notice that the positions of a few relatively nearby stars were slowly changing, but that would be about it. You’d find, in short, that you were not so much flying to the stars as swimming among them.

The Voyagers’ scientific mission will end when their plutonium-238 thermoelectric power generators fail, around the year 2030. After that, the two craft will drift endlessly among the stars of our galaxy—unless someone or something encounters them someday. With this prospect in mind, each was fitted with a copy of what has come to be called the Golden Record. Etched in copper, plated with gold, and sealed in aluminum cases, the records are expected to remain intelligible for more than a billion years, making them the longest-lasting objects ever crafted by human hands. We don’t know enough about extraterrestrial life, if it even exists, to state with any confidence whether the records will ever be found. They were a gift, proffered without hope of return.

I became friends with Carl Sagan, the astronomer who oversaw the creation of the Golden Record, in 1972. He’d sometimes stop by my place in New York, a high-ceilinged West Side apartment perched up amid Norway maples like a tree house, and we’d listen to records. Lots of great music was being released in those days, and there was something fascinating about LP technology itself. A diamond danced along the undulations of a groove, vibrating an attached crystal, which generated a flow of electricity that was amplified and sent to the speakers. At no point in this process was it possible to say with assurance just how much information the record contained or how accurately a given stereo had translated it. The open-endedness of the medium seemed akin to the process of scientific exploration: there was always more to learn.

In the winter of 1976, Carl was visiting with me and my fiancée at the time, Ann Druyan, and asked whether we’d help him create a plaque or something of the sort for Voyager. We immediately agreed. Soon, he and one of his colleagues at Cornell, Frank Drake, had decided on a record. By the time NASA approved the idea, we had less than six months to put it together, so we had to move fast. Ann began gathering material for a sonic description of Earth’s history. Linda Salzman Sagan, Carl’s wife at the time, went to work recording samples of human voices speaking in many different languages. The space artist Jon Lomberg rounded up photographs, a method having been found to encode them into the record’s grooves. I produced the record, which meant overseeing the technical side of things. We all worked on selecting the music.

I sought to recruit John Lennon, of the Beatles, for the project, but tax considerations obliged him to leave the country. Lennon did help us, though, in two ways. First, he recommended that we use his engineer, Jimmy Iovine, who brought energy and expertise to the studio. (Jimmy later became famous as a rock and hip-hop producer and record-company executive.) Second, Lennon’s trick of etching little messages into the blank spaces between the takeout grooves at the ends of his records inspired me to do the same on Voyager. I wrote a dedication: “To the makers of music—all worlds, all times.”

To our surprise, those nine words created a problem at NASA . An agency compliance officer, charged with making sure each of the probes’ sixty-five thousand parts were up to spec, reported that while everything else checked out—the records’ size, weight, composition, and magnetic properties—there was nothing in the blueprints about an inscription. The records were rejected, and NASA prepared to substitute blank discs in their place. Only after Carl appealed to the NASA administrator, arguing that the inscription would be the sole example of human handwriting aboard, did we get a waiver permitting the records to fly.

In those days, we had to obtain physical copies of every recording we hoped to listen to or include. This wasn’t such a challenge for, say, mainstream American music, but we aimed to cast a wide net, incorporating selections from places as disparate as Australia, Azerbaijan, Bulgaria, China, Congo, Japan, the Navajo Nation, Peru, and the Solomon Islands. Ann found an LP containing the Indian raga “Jaat Kahan Ho” in a carton under a card table in the back of an appliance store. At one point, the folklorist Alan Lomax pulled a Russian recording, said to be the sole copy of “Chakrulo” in North America, from a stack of lacquer demos and sailed it across the room to me like a Frisbee. We’d comb through all this music individually, then meet and go over our nominees in long discussions stretching into the night. It was exhausting, involving, utterly delightful work.

“Bhairavi: Jaat Kahan Ho,” by Kesarbai Kerkar

In selecting Western classical music, we sacrificed a measure of diversity to include three compositions by J. S. Bach and two by Ludwig van Beethoven. To understand why we did this, imagine that the record were being studied by extraterrestrials who lacked what we would call hearing, or whose hearing operated in a different frequency range than ours, or who hadn’t any musical tradition at all. Even they could learn from the music by applying mathematics, which really does seem to be the universal language that music is sometimes said to be. They’d look for symmetries—repetitions, inversions, mirror images, and other self-similarities—within or between compositions. We sought to facilitate the process by proffering Bach, whose works are full of symmetry, and Beethoven, who championed Bach’s music and borrowed from it.

I’m often asked whether we quarrelled over the selections. We didn’t, really; it was all quite civil. With a world full of music to choose from, there was little reason to protest if one wonderful track was replaced by another wonderful track. I recall championing Blind Willie Johnson’s “Dark Was the Night,” which, if memory serves, everyone liked from the outset. Ann stumped for Chuck Berry’s “ Johnny B. Goode ,” a somewhat harder sell, in that Carl, at first listening, called it “awful.” But Carl soon came around on that one, going so far as to politely remind Lomax, who derided Berry’s music as “adolescent,” that Earth is home to many adolescents. Rumors to the contrary, we did not strive to include the Beatles’ “Here Comes the Sun,” only to be disappointed when we couldn’t clear the rights. It’s not the Beatles’ strongest work, and the witticism of the title, if charming in the short run, seemed unlikely to remain funny for a billion years.

“Dark Was the Night, Cold Was the Ground,” by Blind Willie Johnson

Ann’s sequence of natural sounds was organized chronologically, as an audio history of our planet, and compressed logarithmically so that the human story wouldn’t be limited to a little beep at the end. We mixed it on a thirty-two-track analog tape recorder the size of a steamer trunk, a process so involved that Jimmy jokingly accused me of being “one of those guys who has to use every piece of equipment in the studio.” With computerized boards still in the offing, the sequence’s dozens of tracks had to be mixed manually. Four of us huddled over the board like battlefield surgeons, struggling to keep our arms from getting tangled as we rode the faders by hand and got it done on the fly.

The sequence begins with an audio realization of the “music of the spheres,” in which the constantly changing orbital velocities of Mercury, Venus, Earth, Mars, and Jupiter are translated into sound, using equations derived by the astronomer Johannes Kepler in the sixteenth century. We then hear the volcanoes, earthquakes, thunderstorms, and bubbling mud of the early Earth. Wind, rain, and surf announce the advent of oceans, followed by living creatures—crickets, frogs, birds, chimpanzees, wolves—and the footsteps, heartbeats, and laughter of early humans. Sounds of fire, speech, tools, and the calls of wild dogs mark important steps in our species’ advancement, and Morse code announces the dawn of modern communications. (The message being transmitted is Ad astra per aspera , “To the stars through hard work.”) A brief sequence on modes of transportation runs from ships to jet airplanes to the launch of a Saturn V rocket. The final sounds begin with a kiss, then a mother and child, then an EEG recording of (Ann’s) brainwaves, and, finally, a pulsar—a rapidly spinning neutron star giving off radio noise—in a tip of the hat to the pulsar map etched into the records’ protective cases.

“The Sounds of Earth”

Ann had obtained beautiful recordings of whale songs, made with trailing hydrophones by the biologist Roger Payne, which didn’t fit into our rather anthropocentric sounds sequence. We also had a collection of loquacious greetings from United Nations representatives, edited down and cross-faded to make them more listenable. Rather than pass up the whales, I mixed them in with the diplomats. I’ll leave it to the extraterrestrials to decide which species they prefer.

“United Nations Greetings/Whale Songs”

Those of us who were involved in making the Golden Record assumed that it would soon be commercially released, but that didn’t happen. Carl repeatedly tried to get labels interested in the project, only to run afoul of what he termed, in a letter to me dated September 6, 1990, “internecine warfare in the record industry.” As a result, nobody heard the thing properly for nearly four decades. (Much of what was heard, on Internet snippets and in a short-lived commercial CD release made in 1992 without my participation, came from a set of analog tape dubs that I’d distributed to our team as keepsakes.) Then, in 2016, a former student of mine, David Pescovitz, and one of his colleagues, Tim Daly, approached me about putting together a reissue. They secured funding on Kickstarter , raising more than a million dollars in less than a month, and by that December we were back in the studio, ready to press play on the master tape for the first time since 1977.

Pescovitz and Daly took the trouble to contact artists who were represented on the record and send them what amounted to letters of authenticity—something we never had time to accomplish with the original project. (We disbanded soon after I delivered the metal master to Los Angeles, making ours a proud example of a federal project that evaporated once its mission was accomplished.) They also identified and corrected errors and omissions in the information that was provided to us by recordists and record companies. Track 3, for instance, which was listed by Lomax as “Senegal Percussion,” turns out instead to have been recorded in Benin and titled “Cengunmé”; and Track 24, the Navajo night chant, now carries the performers’ names. Forty years after launch, the Golden Record is finally being made available here on Earth. Were Carl alive today—he died in 1996 at the age of sixty-two—I think he’d be delighted.

This essay was adapted from the liner notes for the new edition of the Voyager Golden Record, recently released as a vinyl boxed set by Ozma Records .

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By Anthony Lydgate

By Ronan Farrow

By Eric Lach

Scientists' predictions for the long-term future of the Voyager Golden Records will blow your mind

Buckle up, everyone, and let's take a ride on a universe-size time machine.

The future is a slippery thing, but sometimes physics can help. And while human destiny will remain ever unknown, the fate of two of our artifacts can be calculated in staggering detail.

Those artifacts are the engraved "Golden Records" strapped to NASA's twin Voyager spacecraft , which have passed into interstellar space. Although the spacecraft will likely fall silent in a few years, the records will remain. Nick Oberg, a doctoral candidate at the Kapteyn Astronomical Institute in the Netherlands, and a colleague wanted to calculate which (if any) stars the two Voyager spacecraft may encounter in the long future of our galaxy.

But the models let them forecast much, much farther into the future. Oberg presented their work at the 237th meeting of the American Astronomical Society , held virtually due to the coronavirus pandemic, on Jan. 12, where he spun a tale of the long future of the twin Voyagers and their Golden Records.

Related: Pale Blue Dot at 30: Voyager 1's iconic photo of Earth from space reveals our place in the universe

NASA launched Voyager 1 and Voyager 2 in 1977 to trek across the solar system. On each was a 12-inch (30 centimeters) large gold-plated copper disk. The brainchild of famed astronomer Carl Sagan, the Golden Records were engraved with music and photographs meant to represent Earth and its humans to any intelligent beings the spacecraft meet on their long journeys. Both spacecraft visited Jupiter and Saturn, then the twins parted ways: Voyager 1 studied Saturn's moon Titan while Voyager 2 swung past Uranus and Neptune. 

In 2012, Voyager 1 passed through the heliopause that marks the edge of the sun's solar wind and entered interstellar space; in 2018, Voyager 2 did so as well. Now, the two spacecraft are chugging through the vast outer reaches of the solar system. They continue to send signals back to Earth, updating humans about their adventures far beyond the planets, although those bulletins may cease in a few years, as the spacecraft are both running low on power .

But their journeys are far from over.

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Oberg and his colleague combined tracking the Voyagers' trajectories forward with studying the environments the spacecraft will fly through to estimate the odds of the Golden Records surviving their adventures while remaining legible. The result is a forecast that stretches beyond not just humanity's likely extinction, but also beyond the collision of the Milky Way with the neighboring Andromeda galaxy — beyond even the extinction of most stars.

Related: The Golden Record in pictures: Voyager probes' message to space explained

Milky Way sightseein

Unsurprisingly, the duo's research ambitions didn't start out quite so vast. The new research was inspired by the release of the second batch of data from the European Space Agency's spacecraft Gaia , which specializes in mapping more than a billion stars super precisely.

"Our original goal was to determine with a very high precision which stars the Voyagers might one day closely encounter using the at the time newly released Gaia catalog of stars," Oberg said during his presentation. So he and his co-author began by tracing the Voyagers' journeys to date and projecting their trajectories out into the future.

But don't get excited for any upcoming milestones. Not until about 20,000 years from now will the Voyagers pass through the Oort cloud — the shell of comets and icy rubble that orbits the sun at a distance of up to 100,000 astronomical units, or 100,000 times the average Earth-sun distance — finally waving goodbye to its solar system of origin.

"At that point for the first time the craft will begin to feel the gravitational pull of other stars more strongly than that of our own sun," Oberg said.

It's another 10,000 years before the spacecraft actually come near an alien star, specifically a red dwarf star called Ross 248. That flyby will occur about 30,000 years from now, Oberg said, although it might be a stretch to say that the spacecraft will pass by that star. "It's actually more like Ross 248 shooting past the nearly stationary Voyagers," he said.

By 500 million years from now, the solar system and the Voyagers alike will complete a full orbit through the Milky Way. There's no way to predict what will have happened on Earth's surface by then, but it's a timespan on the scale of the formation and destruction of Pangaea and other supercontinents, Oberg said.

Throughout this galactic orbit, the Voyager spacecraft will oscillate up and down, with Voyager 1 doing so more dramatically than its twin. According to these models, Voyager 1 will travel so far above the main disk of the galaxy that it will see stars at just half the density as we do.

Odds of destruction

The same difference in vertical motion will also shape the differing odds each spacecraft's Golden Record has of survival.

The records were designed to last, meant to survive perhaps a billion years in space : beneath the golden sheen is a protective aluminum casing and, below that, the engraved copper disks themselves. But to truly understand how long these objects may survive, you have to know what conditions they'll experience, and that means knowing where they will be.

Specifically, Oberg and his colleague needed to know how much time the spacecraft would spend swathed in the Milky Way's vast clouds of interstellar dust , which he called "one of the few phenomena that could actually act to damage the spacecraft."

It's a grim scenario, dust pounding into the Voyagers at a speed of a few miles or kilometers per second. "The grains will act as a steady rain that slowly chips away at the skin of the spacecraft," Oberg said. "A dust grain only one-thousandth of a millimeter across will still leave a small vaporized crater when it impacts."

Voyager 1's vertical oscillations mean that spacecraft will spend more time above and below the plane of the galaxy, where the clouds are thickest. Oberg and his colleague simulated thousands of times over the paths of the two spacecraft and their encounters with the dust clouds, modeling the damage the Golden Records would incur along the way.

That work also requires taking into consideration the possibility that a cloud's gravity might tug at one of the Voyagers' trajectories, Oberg said. "The clouds have so much mass concentrated in one place that they actually may act to bend the trajectory of the spacecraft and fling them into new orbits — sometimes much farther out, sometimes even deeper toward the galactic core."

Both Golden Records have good odds of remaining legible, since their engraved sides are tucked away against the spacecraft bodies. The outer surface of Voyager 1's record is more likely to erode away, but the information on Voyager 2's record is more likely to become illegible, Oberg said.

"The main reason for this is because the orbit that Voyager 2 is flung into is more chaotic, and it's significantly more difficult to predict with any certainty of exactly what sort of environment it's going to be flying through," he said.

But despite the onslaught and potential detours, "Both Golden Records are highly likely to survive at least partially intact for a span of over 5 billion years," Oberg said.

Related: Photos from NASA's Voyager 1 and 2 probes

After the Milky Way's end

After those 5 billion years, modeling is tricky. That's when the Milky Way is due to collide with its massive neighbor, the Andromeda galaxy , and things get messy. "The orderly spiral shape will be severely warped, and possibly destroyed entirely," Oberg said. The Voyagers will be caught up in the merger, with the details difficult to predict so far in advance.

Meanwhile, the vicarious sightseeing continues. Oberg and his colleague calculated that in this 5-billion-year model-friendly period, each of the Voyagers likely visits a star besides our sun within about 150 times the distance between Earth and the sun, or three times the distance between the sun and Pluto at the dwarf planet's most distant point.

Precisely which star that might be, however, is tricky — it may not even be a star we know today.

"While neither Voyager is likely to get particularly close to any star before the galaxies collide, the craft are likely to at least pass through the outskirts of some [star] system," Oberg said. "The very strange part is that that actually might be a system that does not yet exist, of a star that has yet to be born."

Such are the perils of working on a scale of billions of years.

From here, the Voyagers' fate depends on the conditions of the galactic merger , Oberg said.

The collision itself might kick a spacecraft out of the newly monstrous galaxy — a one in five chance, he said — although it would remain stuck in the neighborhood. If that occurs, the biggest threat to the Golden Records would become collisions with high-energy cosmic rays and the odd molecule of hot gas, Oberg said; these impacts would be rarer than the dust that characterized their damage inside the Milky Way.

Inside the combined galaxy, the Voyagers' fate would depend on how much dust is left behind by the merger; Oberg said that may well be minimal as star formation and explosion both slow, reducing the amount of dust flung into the galaxy.

Depending on their luck with this dust, the Voyagers may be able to ride out trillions of trillions of trillions of years, long enough to cruise through a truly alien cosmos, Oberg said.

"Such a distant time is far beyond the point where stars have exhausted their fuel and star formation has ceased in its entirety in the universe," he said. "The Voyagers will be drifting through what would be, to us, a completely unrecognizable galaxy, free of so-called main-sequence stars , populated almost exclusively by black holes and stellar remnants such as a white dwarfs and neutron stars."

It's a dark future, Oberg added. "The only source of significant illumination in this epoch will be supernovas that results from the once-in-a-trillion-year collision between these stellar remnants that still populate the galaxy," he said. "Our work, found on these records, thus may bear witness to these isolated flashes in the dark."

Email Meghan Bartels at [email protected] or follow her on Twitter @meghanbartels. Follow us on Twitter @Spacedotcom and on Facebook.

China has made it to Mars .

The nation's first fully homegrown Mars mission, Tianwen-1 , arrived in orbit around the Red Planet today (Feb. 10), according to Chinese media reports.

The milestone makes China the sixth entity to get a probe to Mars, joining the United States, the Soviet Union, the European Space Agency, India and the United Arab Emirates, whose Hope orbiter made it to the Red Planet just yesterday (Feb. 9).

And today's achievement sets the stage for something even more epic a few months from now — the touchdown of Tianwen-1's lander-rover pair on a large plain in Mars' northern hemisphere called Utopia Planitia , which is expected to take place this May. (China doesn't typically publicize details of its space missions in advance, so we don't know for sure exactly when that landing will occur.)

Related: Here's what China's Tianwen-1 Mars mission will do See more: China's Tianwen-1 Mars mission in photos

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An ambitious mission

China took its first crack at Mars back in November 2011, with an orbiter called Yinghuo-1 that launched with Russia's Phobos-Grunt sample-return mission . But Phobos-Grunt never made it out of Earth orbit, and Yinghuo-1 crashed and burned with the Russian probe and another tagalong, the Planetary Society's Living Interplanetary Flight Experiment.

Tianwen-1 ( which means "Questioning the Heavens" ) is a big step up from Yinghuo-1, however. For starters, this current mission is an entirely China-led affair; it was developed by the China National Space Administration (with some international collaboration) and launched atop a Chinese Long March 5 rocket on July 23, 2020.

Tianwen-1 is also far more ambitious than the earlier orbiter, which weighed a scant 254 lbs. (115 kilograms). Tianwen-1 tipped the scales at about 11,000 lbs. (5,000 kg) at launch, and it consists of an orbiter and a lander-rover duo.

These craft will take Mars' measure in a variety of ways. The orbiter, for example, will study the planet from above using a high-resolution camera, a spectrometer, a magnetometer and an ice-mapping radar instrument, among other scientific gear.

The orbiter will also relay communications from the rover, which sports an impressive scientific suite of its own. Among the rover's gear are cameras, climate and geology instruments and ground-penetrating radar, which will hunt for pockets of water beneath Mars' red dirt. 

Occupy Mars: History of robotic Red Planet missions (infographic)

"On Earth, these pockets can host thriving microbial communities, so detecting them on Mars would be an important step in our search for life on other worlds," the Planetary Society wrote in a description of the Tianwen-1 mission .

The lander, meanwhile, will serve as a platform for the rover, deploying a ramp that the wheeled vehicle will roll down onto the Martian surface. The setup is similar to the one China has used on the moon with its Chang'e 3 and Chang'e 4 rovers, the latter of which is still going strong on Earth's rocky satellite.

If the Tianwen-1 rover and lander touch down safely this May and get to work, China will become just the second nation, after the United States, to operate a spacecraft successfully on the Red Planet's surface for an appreciable amount of time. (The Soviet Union pulled off the first-ever soft touchdown on the Red Planet with its Mars 3 mission in 1971, but that lander died less than two minutes after hitting the red dirt.)

The Tianwen-1 orbiter is scheduled to operate for at least one Mars year (about 687 Earth days), and the rover's targeted lifetime is 90 Mars days, or sols (about 93 Earth days).

Bigger things to come?

Tianwen-1 will be just China's opening act at Mars, if all goes according to plan: The nation aims to haul pristine samples of Martian material back to Earth by 2030, where they can be examined in detail for potential signs of life and clues about Mars' long-ago transition from a relatively warm and wet planet to the cold desert world it is today.

NASA has similar ambitions, and the first stage of its Mars sample-return campaign is already underway. The agency's Perseverance rover will touch down inside the Red Planet's Jezero Crater next Thursday (Feb. 18), kicking off a surface mission whose top-level tasks include searching for signs of ancient Mars life and collecting and caching several dozen samples.

Perseverance's samples will be hauled home by a joint NASA-European Space Agency campaign, perhaps as early as 2031 .

So we have a lot to look forward to in the coming days and weeks, and many reasons to keep our fingers crossed for multiple successful Red Planet touchdowns.

"More countries exploring Mars and our solar system means more discoveries and opportunities for global collaboration," the Planetary Society wrote in its Tianwen-1 description. "Space exploration brings out the best in us all, and when nations work together everyone wins."

Mike Wall is the author of " Out There " (Grand Central Publishing, 2018; illustrated by Karl Tate), a book about the search for alien life. Follow him on Twitter @michaeldwall. Follow us on Twitter @Spacedotcom or Facebook. 

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].

Meghan is a senior writer at Space.com and has more than five years' experience as a science journalist based in New York City. She joined Space.com in July 2018, with previous writing published in outlets including Newsweek and Audubon. Meghan earned an MA in science journalism from New York University and a BA in classics from Georgetown University, and in her free time she enjoys reading and visiting museums. Follow her on Twitter at @meghanbartels.

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You Can Now Get Your Own Copy of the Voyager 'Golden Record'

By jen pinkowski | nov 27, 2017.

For more than 40 years, the spacecrafts Voyager 1 and Voyager 2 have taken the music, words, images, and sounds of Earth deeper into space thanks to the Golden Record, a copy of which was sent into space with each probe. This mix tape—a 12-inch, gold-plated copper disk—from us to the universe was famously put together by a team lead by Carl Sagan that was tasked with creating a snapshot of our world that aliens could understand—as long as they brought their own record player, as the probes, launched in 1977, lacked them.

Last year, a Kickstarter campaign offered a remastered, 40th-anniversary edition vinyl box set to project backers. The campaign aimed for $198,000; it raised $1,363,037. Now, anyone with $50 will be able to get a copy of Earth's interstellar playlist. You can now order the set from OZMA Records (via Light in the Attic Records). This is big: Even Sagan himself was turned down when he asked NASA for a copy.

The set includes a full-color hardcover book with two CDs of all the audio content and all the images that were encoded in analog on the record, scanned from a set of original slides. Science journalist Timothy Ferris, the original producer of the Voyager Interstellar Record, as it's officially called, penned an original essay for the book. Images beamed back to Earth from the Voyager probes are included too.

Among the tracks you'll hear are a Pygmy girls' initiation song from Zaire (now the Democratic Republic of the Congo), the Queen of the Night aria, no. 14, from Mozart's The Magic Flute , and the gospel blues song "Dark Was the Night" by Blind Willie Johnson. Sounds include volcanoes, laughter, footsteps, Morse code, wind, crickets, a tame dog, and a kiss between a mother and a child. Some of the images from 1977 depict a tropical island, a foot race, skyscrapers and mud-brick homes, and a trio of people licking, eating, and drinking.

"I remember sitting around the kitchen table making these huge decisions about what to put on and what to leave off," Ann Druyan, the creative director of the Golden Record and Sagan's wife, told NASA's ScienceCast. "We couldn't help but appreciate the enormous responsibility to create a cultural Noah's Ark with a shelf life of hundreds of millions of years."

Voyager 1 and Voyager 2 are now far from Earth : Voyager 2 on the periphery of our solar system in what's known as the heliosheath, and Voyager 1, far beyond it, 13 billion miles away—the most-distant object humans have ever sent into space. The probes still talk to us every day, sending back data. One day, perhaps, they'll talk to someone else Out There.

You, Too, Could Own a Copy of the Voyager Golden Record

Ozma records is producing a box set of the album sent into the cosmos to reach out to potential extraterrestrial life

Jason Daley

Correspondent

Record collectors shell out tens or even hundreds of thousands of dollars for rare discs by the Beatles or early blues artists. However, there’s one disc many collectors (and every space nerds) covets but will never get their hands on: the Golden Record. Now, a group of science enthusiasts and vinyl aficionados have teamed up to make a version of the disc available to the masses.

In 1977, 12-inch gold-plated copper discs were placed aboard the Voyager 1 and Voyager 2 space probes. The records were housed in an aluminum sleeve bearing instructions on how to play them and included a needle and a cartridge. The contents, curated by a committee headed by astronomer Carl Sagan, include 115 encoded analog images from Earth, natural sounds like birds, whales, and a baby’s cry, music by Bach, Beethoven, and Chuck Berry, greetings in 55 languages and written messages from then-President Jimmy Carter and U.N. General Secretary Kurt Waldheim.

“The spacecraft will be encountered and the record played only if there are advanced spacefaring civilizations in interstellar space,” Sagan noted . “But the launching of this bottle into the cosmic ocean says something very hopeful about life on this planet."

According to Megan Molteni at Wired , NASA pressed a dozen of the records, ten of which were distributed to NASA facilities. The other two are 13 billion miles from Earth on Voyager 1 and 2. Despite his requests, even Carl Sagan never received a copy. Just getting a glimpse of a Golden Record is difficult, reports Kenneth Chang for  The New York Times . A copy of the record's aluminum cover is on display at the Smithsonian’s National Air and Space Museum. The record itself is can be viewed in an auditorium at the Jet Propulsion Lab in Pasadena, California, which is open during public lectures.

That’s why the group calling itself Ozma Records decided to celebrate the 40th anniversary of the Voyager launches by reissuing the Golden Record as a box set. Last week, they listed their project on Kickstarter with a goal of raising $198,000 to produce the facsimile. The project blasted past that goal in just two days and at last count received pledges worth $658,000 from almost 5,300 backers.

The $98 reissue isn’t exactly the same as the Voyager disks. For one thing, it’s pressed from yellow vinyl, not actual copper and gold, Chang reports. It will come on 3 LPs, which are designed to be played at 33 rpm, versus the original which plays at 16.5 rpm to accommodate all the photos, messages and 90 minutes of music on a single disc. The box set will also include a hardbound book about the history and production of the record along with printed photos of the images included on the disk. An MP3 version of the audio will also be available for $15.

“When you’re seven years old, and you hear about a group of people creating messages for possible extraterrestrial intelligence,” Ozma Records' David Pescovitz, managing partner at Boing Boing and research director at Institute for the Future, tells Chang, “that sparks the imagination. The idea always stuck with me.”

In 1978, Sagan and his colleagues published Murmurs of the Earth, the story of the Golden Record’s creation, which included a track list from the record. A 1992 CD-ROM of the book was reissued including a digital re-creation of the Golden Record. But this is the first time the public has had access to the recording in the format that an alien civilization may encounter it. The production team is trying to keep the disks as close to the original as possible, and are working with science writer Timothy Ferris, who produced the original, to remaster the recordings.

“The thinking on the original was so genius that who am I to change anything about it, you know?” experienced album designer Lawrence Azerrad, who is curating the album packaging tells Molteni. “It’d be like listening to Mozart and saying, ‘Oh I think that bridge was a little fast.’ This is an awesome snapshot of who we are as the human race, and we want all of that to just sing and be as pure as possible.”

The recently acquired permissions to publish the music on the collection and expects to ship the box sets sometime during 2017, Voyager’s anniversary year.

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Jason Daley | | READ MORE

Jason Daley is a Madison, Wisconsin-based writer specializing in natural history, science, travel, and the environment. His work has appeared in Discover , Popular Science , Outside , Men’s Journal , and other magazines.

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The 116 photos NASA picked to explain our world to aliens

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If any intelligent life in our galaxy intercepts the Voyager spacecraft, if they evolved the sense of vision, and if they can decode the instructions provided, these 116 images are all they will know about our species and our planet, which by then could be long gone:

When Voyager 1 and Voyager 2 launched into space in 1977, their mission was to explore the outer solar system, and over the following decade, they did so admirably.

With an 8-track tape memory system and onboard computers that are thousands of times weaker than the phone in your pocket, the two spacecraft sent back an immense amount of imagery and information about the four gas giants, Jupiter, Saturn, Uranus, and Neptune.

But NASA knew that after the planetary tour was complete, the Voyagers would remain on a trajectory toward interstellar space, having gained enough velocity from Jupiter's gravity to eventually escape the grasp of the sun. Since they will orbit the Milky Way for the foreseeable future, the Voyagers should carry a message from their maker, NASA scientists decided.

The Voyager team tapped famous astronomer and science popularizer Carl Sagan to compose that message. Sagan's committee chose a copper phonograph LP as their medium, and over the course of six weeks they produced the "Golden Record": a collection of sounds and images that will probably outlast all human artifacts on Earth.

How would aliens know what to do with the Golden Record?

The records are mounted on the outside of Voyager 1 and Voyager 2 and protected by an aluminum case. Etched on the cover of that case are symbols explaining how to decode the record. Put yourself in an extraterrestrial's shoes and try to guess what the etchings seek to communicate. Stumped? Hover over or click on the yellow circles for the intended meaning of these interstellar brain teasers:

What else is on the Golden Record?

Any aliens who come across the Golden Record are in for a treat. It contains:

• 116 images encoded in analog form depicting scientific knowledge, human anatomy, human endeavors, and the terrestrial environment. (These images appear in color in the video above, but on the record, all but 20 are black and white.)
• Spoken greetings in more than 50 languages.
• A compilation of sounds from Earth.
• Nearly 90 minutes of music from around the world. Notably missing are the Beatles, who reportedly wanted to contribute "Here Comes the Sun" but couldn't secure permission from their record company. For the video above, I chose to include "Dark Was the Night" by Blind Willie Johnson, a 1927 track Sagan described as "haunting and expressive of a kind of cosmic loneliness."

The committee also made space for a message from the president of the United States:

Where are they now?

Incredibly, Voyager 1 and Voyager 2 are still communicating with Earth — they aren't expected to lose power until the 2020s. That's how NASA knew that Voyager 1 became the first ever spacecraft to enter interstellar space in 2012: The probe detected high-density plasma characteristic of the space beyond the heliosphere (the bubble of solar wind created by the sun).

Voyager 2 is currently traveling through the outer layers of the heliosphere. It's moving southward relative to Earth's orbit, while Voyager 1 is moving northward. In more than 40,000 years, they will each pass closer to another star than they are to our sun. (Or, more accurately, stars will pass by them).

There are three other spacecraft headed toward interstellar space; two of them, Pioneer 10 and Pioneer 11, are shown in this somewhat dated illustration:

NASA launched Pioneer 10 and 11 in 1972 and 1973, and has since lost communication with both. They aren't traveling as fast as the Voyagers, but they will eventually enter interstellar space as well.

They too, carry a message for extraterrestrial life, in the form of a 6-by-9-inch gold-anodized aluminum plaque, designed by Sagan and other members of the team that would go on to create the Voyager Golden Record five years later.

Like the Golden Record, the plaque features the pulsar map, uses hydrogen to define the binary units, and depicts humankind. NASA faced a backlash for the nudity of the human figures.

Another interstellar message

The fifth probe that will exit our solar system is New Horizons , the spacecraft that flew by Pluto in 2015. It is headed in a broadly similar direction as Voyager 2, but having launched in 2006, it's many years behind. It may not reach interstellar space for another 30 years.

New Horizons was sent into space without any message like the Golden Record, but it's not too late to add one. A group led by Jon Lomberg , a member of Sagan's Golden Record team, is trying to convince NASA to upload a crowdsourced message to the probe for any intelligent life that might come across it.

The spacecraft's memory system is similar to a flash drive, and it wouldn't be as durable as the copper records on Voyager. "The most conservative estimates are a lifetime of a few decades. Other physicists and engineers believe the message might remain for centuries or even millennia," says the website of the message initiative, adding, more hopefully, "Another unknown is the advanced technology possessed by any ETs who find the spacecraft. They might have ways of reading the faded memory we cannot yet imagine."

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Voyager Golden Record

Dear Voyagers: How your billion-year journey carries true love

Ann Druyan, creative director on the Voyager golden discs, reflects on the two spacecraft’s epic journeys—and on Carl Sagan, the love of her life.

This cover was designed to protect the Voyager 1 and 2 Sounds of Earth gold-plated records from micrometeorite bombardment, but it also provides any future finders of the spacecraft a key to playing its contents. The records within contain greetings in 60 languages, samples of music from different cultures and eras, natural and artificial sounds from Earth, and electronic information that can be converted into diagrams and images.

Dear Voyagers,

You, the farthest objects we have ever touched, now venture beyond that place where the sun’s wind gives way to roaring interstellar gales; far, far away—and yet I feel close to you. My own life attained lift-off when you did. I was 27 years old when you were in the last stages of your assembly. Carl Sagan and I had known each other as friends and colleagues for a couple of years. We fell in love in 1977 while collaborating on the message that you carry. At the same moment that you left Earth to discover and explore other worlds and to blaze our trail to the stars, we were launched on our own life trajectory. You have been on my mind ever since.

The golden discs affixed to both of you are rich in information, including our return address. The scientific hieroglyphic on them that resembles a burst of fireworks is actually a map of the frequencies of the thirteen nearest pulsars. We think that these rapidly rotating neutron stars—virtually inexhaustible natural beacons, each identifiable by their unique rate of spin—will point the way to our sun and its system of worlds.

Countless times I have tried to imagine that I am flying along with you at 38,000 miles an hour past gas giants and ice worlds, as you leave the shallows of the cosmic ocean, bullet-like, even under the punishing assault of cosmic rays.

I have fantasized your discovery by an extraterrestrial civilization. They reel in one of you derelict spacecraft, assessing your Model-T technology, and pore over the symbols on your golden disc, as Champollion and Young once did in their efforts to decipher the texts of ancient Egypt. But your deeper message is hidden beneath. Someone figures this out and pries off the cover to find 27 pieces of music from the world’s cultures, 118 images of life here, greetings in the languages of humans and others, and an audio essay about life on Earth.

The crackle of thunder awaits them. A mother’s first words to her newborn. A cricket’s song. An hour of meditation by a young woman newly fallen in true love.

FREE BONUS ISSUE

I was that woman.

Fast Facts: Voyager 1 and 2

Agency: NASA

Voyager 1 Launch Date: September 5, 1977

Voyager 2 Launch Date: August 20, 1977

Launch Vehicle: Martin Marietta Titan IIIE

Launch Mass: 1,591.5 lbs (721.9 kg)

Power Source: 420-watt radioisotope thermal generator

Voyager 1 Enters Interstellar Space: August 25, 2012

Voyager 2 Enters Interstellar Space: November 5, 2018

Just days after Carl and I realized we would spend the rest of our lives together, I meditated for an hour while blindfolded, hooked up to every human monitoring device then known. The signals from my mind and heart—the most intimate message on the record—were translated into data and paired on the golden records with a strangely similar rasping, that of the most distant sound ever recorded back then: a pulsar.

Now, I am seventy. Yet the feelings of that long-ago spring afternoon remain fresh and astounding. It was the first day of June, and I was searching for the piece of music that would honor China’s 2,500-year-old continuous tradition. I did not know a single thing about Chinese music, so the search for its exemplar had been especially challenging. Once I felt sure I had found it, I left a message for Carl at his hotel in Tucson. We had never kissed or even joked about our feelings for each other, but when he returned my call, in the course of an exchange of about a dozen words, we had decided to marry.

And marry we did—in every way possible. Our families, our work, our hearts and minds and days and nights were blissful in their oneness, for the next two decades, until his death.

On Valentine's Day 1990, Voyager 1 sent Earth a love letter in the form of a planetary portrait. From more than four billion miles away, Earth appears as just a "pale blue dot," a phrase coined by the scientist Carl Sagan.

I and everyone I know will be dust for more than fifty thousand years before you near another star (unless some spacefarer should flag you down). But even if you are never claimed, you two have already taught us many things. Your dispatches from the outer solar system revealed new moons, geysers, volcanoes, sub-surface oceans, hurricanes of a ferocity that would fracture even our extended scale of categories, and even the very shape of our solar system as it moves through the Milky Way galaxy.

Under Carl’s leadership, you gave us another gift: that lesson in humility known as the “pale blue dot,” a portrait of our one-pixel world taken from out by Neptune. It is a way to grasp our true circumstances that can pierce even the fiercest form of denial. To see it is to know that we all live on a tiny dot. I wonder how long the petty chieftains and polluters can hold onto their delusions now that we’ve seen the picture you took and sent home to us, Voyager 1? From where you are now, Earth would be invisible.

For me you are more than machine. You are also an apt metaphor for Carl. In him, as in you, our science and humanity were united without conflict. Wonder and skepticism, imagination and rigor, ambition and inclusion, passion and reason, audacity and humility, precision and tenderness—none ever at the cost of the other—all combined to make him, what he was, and you, what you are.

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Our collective human memory can barely reach back ten thousand years. Generations of scientists have been reconstructing the past of our species, our planet, and our universe. Thanks to them, we have an idea of what happened nearly 14 billion years ago. Your projected shelf life measures on that same enormous time scale. You are expected to complete four to twenty trips around the galaxy with our music, our images, our messages, intact. Since you have exceeded your mission specifications in every other way, I favor the optimistic view of a five-billion-year long shelf-life for your message. That’s likely longer than the future history of life on Earth. Your voices may still speak for us when our sun has become a red giant and all terrestrial remnants of our existence have been reduced to ash.

Even then, because of you, we can imagine that five thousand million years from now, our blues and our ragas, and a heart at its greatest fullness, will sing on.

Ad astra, my darlings.

My love and I are with you always,

Related Topics

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Stephen Clark, Ars Technica

How NASA Repaired Voyager 1 From 15 Billion Miles Away

Engineers have partially restored a 1970s-era computer on NASA's Voyager 1 spacecraft after five months of long-distance troubleshooting , building confidence that humanity's first interstellar probe can eventually resume normal operations.

Several dozen scientists and engineers gathered Saturday in a conference room at NASA's Jet Propulsion Laboratory, or connected virtually, to wait for a new signal from Voyager 1. The ground team sent a command up to Voyager 1 on Thursday to recode part of the memory of the spacecraft's Flight Data Subsystem (FDS) , one of the probe's three computers.

“In the minutes leading up to when we were going to see a signal, you could have heard a pin drop in the room,” said Linda Spilker, project scientist for NASA's two Voyager spacecraft at JPL. “It was quiet. People were looking very serious. They were looking at their computer screens. Each of the subsystem (engineers) had pages up that they were looking at, to watch as they would be populated.”

Finally, a Breakthrough

Launched nearly 47 years ago, Voyager 1 is flying on an outbound trajectory more than 15 billion miles (24 billion kilometers) from Earth, and it takes 22.5 hours for a radio signal to cover that distance at the speed of light. This means it takes nearly two days for engineers to uplink a command to Voyager 1 and get a response.

In November, Voyager 1 suddenly stopped transmitting its usual stream of data containing information about the spacecraft's health and measurements from its scientific instruments. Instead, the spacecraft's datastream was entirely unintelligible. Because the telemetry was unreadable, experts on the ground could not easily tell what went wrong. They hypothesized the source of the problem might be in the memory bank of the FDS.

There was a breakthrough last month when engineers sent up a novel command to “poke” Voyager 1's FDS to send back a readout of its memory. This readout allowed engineers to pinpoint the location of the problem in the FDS memory . The FDS is responsible for packaging engineering and scientific data for transmission to Earth.

After a few weeks, NASA was ready to uplink a solution to get the FDS to resume packing engineering data. This datastream includes information on the status of the spacecraft—things like power levels and temperature measurements. This command went up to Voyager 1 through one of NASA's large Deep Space Network antennae on Thursday.

Then, the wait for a response. Spilker, who started working on Voyager right out of college in 1977, was in the room when Voyager 1's signal reached Earth on Saturday.

“When the time came to get the signal, we could clearly see all of a sudden, boom, we had data, and there were tears and smiles and high fives,” she told Ars. “Everyone was very happy and very excited to see that, hey, we're back in communication again with Voyager 1. We're going to see the status of the spacecraft, the health of the spacecraft, for the first time in five months.”

Matt Jancer

Boone Ashworth

David Nield

Scott Gilbertson

Throughout the five months of troubleshooting, Voyager's ground team continued to receive signals indicating the spacecraft was still alive. But until Saturday, they lacked insight into specific details about the status of Voyager 1.

“It’s pretty much just the way we left it,” Spilker said. “We're still in the initial phases of analyzing all of the channels and looking at their trends. Some of the temperatures went down a little bit with this period of time that's gone on, but we're pretty much seeing everything we had hoped for. And that's always good news.”

Relocating Code

Through their investigation, Voyager's ground team discovered that a single chip responsible for storing a portion of the FDS memory had stopped working, probably due to either a cosmic ray hit or a failure of aging hardware. This affected some of the computer's software code.

“That took out a section of memory,” Spilker said. “What they have to do is relocate that code into a different portion of the memory, and then make sure that anything that uses those codes, those subroutines, know to go to the new location of memory, for access and to run it.”

Only about 3 percent of the FDS memory was corrupted by the bad chip, so engineers needed to transplant that code into another part of the memory bank. But no single location is large enough to hold the section of code in its entirety, NASA said.

So the Voyager team divided the code into sections for storage in different places in the FDS. This wasn't just a copy-and-paste job. Engineers needed to modify some of the code to make sure it will all work together. “Any references to the location of that code in other parts of the FDS memory needed to be updated as well,” NASA said in a statement.

Newer NASA missions have hardware and software simulators on the ground, where engineers can test new procedures to make sure they do no harm when they uplink commands to the real spacecraft. Due to its age, Voyager doesn't have any ground simulators, and much of the mission's original design documentation remains in paper form and hasn't been digitized.

“It was really eyes-only to look at the code,” Spilker said. “So we had to triple check. Everybody was looking through and making sure we had all of the links coming together.”

This was just the first step in restoring Voyager 1 to full functionality. “We were pretty sure it would work, but until it actually happened, we didn't know 100 percent for sure,” Spilker said.

“The reason we didn’t do everything in one step is that there was a very limited amount of memory we could find quickly, so we prioritized one data mode (the engineering data mode), and relocated only the code to restore that mode,” said Jeff Mellstrom, a JPL engineer who leads the Voyager 1 “tiger team” tasked with overcoming this problem.

“The next step, to relocate the remaining three actively used science data modes, is essentially the same,” Mellstrom said in a written response to Ars. “The main difference is the available memory constraint is now even tighter. We have ideas where we could relocate the code, but we haven’t yet fully assessed the options or made a decision. These are the first steps we will start this week.”

It could take “a few weeks” to go through the sections of code responsible for packaging Voyager 1's science data in the FDS, Spilker said.

That will be the key payoff, Spilker said. Voyager 1 and its twin spacecraft, Voyager 2, are the only operating probes flying in the interstellar medium, the diffuse gas between the stars. Their prime missions are long over. Voyager 1 flew by Jupiter and Saturn in 1979 and 1980, then got a gravitational boost toward the outer edge of the Solar System. Voyager 2 took a slower trajectory and encountered Jupiter, Saturn, Uranus, and Neptune.

For the past couple of decades, NASA has devoted Voyager's instruments to studying cosmic rays, the magnetic field, and the plasma environment in interstellar space. They're not taking pictures anymore. Both probes have traveled beyond the heliopause, where the flow of particles emanating from the Sun runs into the interstellar medium.

But any scientific data collected by Voyager 1 since November 14 has been lost. The spacecraft does not have the ability to store science data onboard. Voyager 2 has remained operational during the outage of Voyager 1.

Scientists are eager to get their hands on Voyager 1's science data again. “With the results we got on Saturday, we have new confidence that we can put together the pieces we need to now get back the science data,” Spilker said.

“One thing I'm particularly excited about—there's this feature in the Voyager 1 data. We nicknamed it Pressure Front 2,” Spilker said. “Pressure Front 2 is a jump in both the density of the plasma around the spacecraft and the magnetic field. It's lasted for three-and-a-half years.”

“We'd like to see, is this still there?” she continued. “It's different from what we've seen in the past, and we're trying to figure out, is it some influence coming from the Sun, or is it actually something coming from interstellar space that's creating this feature? So we'd like to see it again, get more data, and be able to study it more carefully.”

This story originally appeared on Ars Technica .

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After months of sending gibberish to NASA, Voyager 1 is finally making sense again

NASA's Voyager 1 probe has resumed sending usable data back to Earth after engineers fixed a computer error that caused the interstellar spacecraft to only transmit gibberish for five months.

NASA's Voyager 1 probe is once again sending readable radio signals back to Earth after engineers fixed a computer glitch that caused the spacecraft to malfunction in November .

For the first time in five months, Voyager 1 is now transmitting usable data about the health and status of its onboard engineering systems back to our planet, NASA's Jet Propulsion Laboratory announced Monday (April 22). However, engineers have yet to fix the software that enables the spacecraft to return science data.

Voyager 1 is cruising through interstellar space roughly 15 billion miles (24 billion kilometers) away from Earth, which means mission control teams have to wait 22.5 hours for their commands to reach the spacecraft and another 22.5 hours for a response. Voyager 1 and its twin probe — Voyager 2, which continues to operate normally after a 2-week blackout last year — were launched almost 47 years ago and are the most distant human-made objects in existence. 

Engineers first noticed something wrong with Voyager 1 on Nov. 14, 2023, when the probe suddenly began transmitting a nonsensical stream of ones and zeros instead of its usual neatly packaged science and engineering datasets. 

Mission controllers could tell the spacecraft was still receiving their commands, however, indicating that its vital systems were operating normally.

Related: A mysterious 'hum' vibrates interstellar space. Voyager 1 has a recording of it.

In early March, after three months of unsuccessful tinkering , NASA engineering teams determined the issue was tied to one of Voyager 1's three onboard computer systems known as the "flight data subsystem" (FDS). The FDS is essential for packaging data harvested by the probe before they are sent to Earth, according to NASA's announcement.

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Engineers located the glitch by sending a command — or "poke" — that prompted the FDS to try new sequences of code in its software in case the issue could be resolved by skirting a corrupted section. The command triggered a signal that differed from the stream of gibberish the spacecraft had been sending back, and that engineers were able to decode . 

It turned out a single chip responsible for storing a portion of the FDS memory, including some of its computer software code, had stopped working. The loss of that code meant the probe's science and engineering data were unusable, according to NASA. To get around the issue, engineers broke up the code once stored in the chip and squeezed sections of it into functioning portions of the FDS memory. 

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The team then rewrote some of the reshuffled code so it could work as a whole again.

Engineers saved these modifications to the FDS memory on April 18. Two days later, they received a response from Voyager 1 showing that the reshuffle worked. For the first time in five months, the probe's message contained readable data, prompting celebrations at the Jet Propulsion Laboratory in Southern California.

However, solving the spacecraft's science data transmission will take further mending of the corrupted portions of the FDS software, NASA said in its announcement.

Sascha is a U.K.-based trainee staff writer at Live Science. She holds a bachelor’s degree in biology from the University of Southampton in England and a master’s degree in science communication from Imperial College London. Her work has appeared in The Guardian and the health website Zoe. Besides writing, she enjoys playing tennis, bread-making and browsing second-hand shops for hidden gems.

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admin said: NASA engineers have fixed a computer error that caused the interstellar Voyager 1 probe to glitch and stop transmitting data back to Earth for five months. After months of sending gibberish to NASA, Voyager 1 is finally making sense again : Read more

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NASA's Voyager 1 sending readable data back to Earth for 1st time in 5 months

The problem stemmed from a corrupted chip in one of the spacecraft's computers.

After more than five months without contact, NASA has finally reconnected with Voyager 1, the farthest spacecraft from Earth.

NASA's Jet Propulsion Lab (JPL) said Voyager 1 had not been sending readable data back to Earth since Nov. 14, 2023, despite the spacecraft still receiving mission controller commands.

In December 2023, the JPL announced the problem was with one of Voyager 1's onboard computers called the flight data subsystem (FDS). Engineers attempted to restart the computer, but the problem persisted, NASA said.

MORE: NASA asks for help studying Uranus and Neptune as it prepares to capture new images

However, the JPL announced this week that Voyager 1 had resumed sending engineering updates to Earth.

Engineers pinpointed the problem earlier this month, NASA said: A chip responsible for storing part of the computer's memory had become corrupted, making the data unreadable. The team was unable to repair the chip and decided the affected code needed to be stored elsewhere in the FDS memory, but no single location was large enough to do so, the JPL said in a release Monday.

The team "devised a plan to divide the affected code into sections and store those sections in different places in the FDS," the release read. "To make this plan work, they also needed to adjust those code sections to ensure, for example, that they all still function as a whole."

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The code that packages Voyager 1's engineering data was the first to be sent to its new location on April 18. The JPL said it takes 22.5 hours for a radio signal to reach Voyager 1 and another 22.5 hours for the signal to come back to Earth. When the team heard from Voyager 1 on April 20, they knew the fix was a success, the JPL said.

"Hi, it's me. - V1," the X account for Voyager 1 posted on Monday afternoon.

Over the next few weeks, more portions of the FDS software will be relocated and the team will work to enable the spacecraft to begin returning science data again, the JPL said.

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Voyager 1 was launched in September 1977 under the Voyager program to study the farther planets of the solar system and interstellar space. Voyager 1 entered interstellar space in 2012 becoming the first man-made object to exit the solar system.

Meanwhile, its twin spacecraft, Voyager 2, continues to "operate normally," according to the JPL. It reached interstellar space in 2018 and is the second-farthest spacecraft from Earth.

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NASA hears from Voyager 1, the most distant spacecraft from Earth, after months of quiet

This illustration provided by NASA depicts Voyager 1. The most distant spacecraft from Earth stopped sending back understandable data in November 2023. Flight controllers traced the blank communication to a bad computer chip and rearranged the spacecraft’s coding to work around the trouble. In mid-April 2024, NASA’s Jet Propulsion Laboratory declared success after receiving good engineering updates. The team is still working to restore transmission of the science data. (NASA via AP)

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CAPE CANAVERAL, Fla. (AP) — NASA has finally heard back from Voyager 1 again in a way that makes sense.

The most distant spacecraft from Earth stopped sending back understandable data last November. Flight controllers traced the blank communication to a bad computer chip and rearranged the spacecraft’s coding to work around the trouble.

NASA’s Jet Propulsion Laboratory in Southern California declared success after receiving good engineering updates late last week. The team is still working to restore transmission of the science data.

It takes 22 1/2 hours to send a signal to Voyager 1, more than 15 billion miles (24 billion kilometers) away in interstellar space. The signal travel time is double that for a round trip.

Contact was never lost, rather it was like making a phone call where you can’t hear the person on the other end, a JPL spokeswoman said Tuesday.

Launched in 1977 to study Jupiter and Saturn, Voyager 1 has been exploring interstellar space — the space between star systems — since 2012. Its twin, Voyager 2, is 12.6 billion miles (20 billion kilometers) away and still working fine.

The Associated Press Health and Science Department receives support from the Howard Hughes Medical Institute’s Science and Educational Media Group. The AP is solely responsible for all content.

• 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

golden record  /  whats on the record

Music from earth.

The following music was included on the Voyager record.

• Bach, Brandenburg Concerto No. 2 in F. First Movement, Munich Bach Orchestra, Karl Richter, conductor. 4:40
• Java, court gamelan, "Kinds of Flowers," recorded by Robert Brown. 4:43
• Senegal, percussion, recorded by Charles Duvelle. 2:08
• Zaire, Pygmy girls' initiation song, recorded by Colin Turnbull. 0:56
• Australia, Aborigine songs, "Morning Star" and "Devil Bird," recorded by Sandra LeBrun Holmes. 1:26
• Mexico, "El Cascabel," performed by Lorenzo Barcelata and the Mariachi México. 3:14
• "Johnny B. Goode," written and performed by Chuck Berry. 2:38
• New Guinea, men's house song, recorded by Robert MacLennan. 1:20
• Japan, shakuhachi, "Tsuru No Sugomori" ("Crane's Nest,") performed by Goro Yamaguchi. 4:51
• Bach, "Gavotte en rondeaux" from the Partita No. 3 in E major for Violin, performed by Arthur Grumiaux. 2:55
• Mozart, The Magic Flute, Queen of the Night aria, no. 14. Edda Moser, soprano. Bavarian State Opera, Munich, Wolfgang Sawallisch, conductor. 2:55
• Georgian S.S.R., chorus, "Tchakrulo," collected by Radio Moscow. 2:18
• Peru, panpipes and drum, collected by Casa de la Cultura, Lima. 0:52
• "Melancholy Blues," performed by Louis Armstrong and his Hot Seven. 3:05
• Azerbaijan S.S.R., bagpipes, recorded by Radio Moscow. 2:30
• Stravinsky, Rite of Spring, Sacrificial Dance, Columbia Symphony Orchestra, Igor Stravinsky, conductor. 4:35
• Bach, The Well-Tempered Clavier, Book 2, Prelude and Fugue in C, No.1. Glenn Gould, piano. 4:48
• Beethoven, Fifth Symphony, First Movement, the Philharmonia Orchestra, Otto Klemperer, conductor. 7:20
• Bulgaria, "Izlel je Delyo Hagdutin," sung by Valya Balkanska. 4:59
• Navajo Indians, Night Chant, recorded by Willard Rhodes. 0:57
• Holborne, Paueans, Galliards, Almains and Other Short Aeirs, "The Fairie Round," performed by David Munrow and the Early Music Consort of London. 1:17
• Solomon Islands, panpipes, collected by the Solomon Islands Broadcasting Service. 1:12
• Peru, wedding song, recorded by John Cohen. 0:38
• China, ch'in, "Flowing Streams," performed by Kuan P'ing-hu. 7:37
• India, raga, "Jaat Kahan Ho," sung by Surshri Kesar Bai Kerkar. 3:30
• "Dark Was the Night," written and performed by Blind Willie Johnson. 3:15
• Beethoven, String Quartet No. 13 in B flat, Opus 130, Cavatina, performed by Budapest String Quartet. 6:37

April 22, 2024

After Months of Gibberish, Voyager 1 Is Communicating Well Again

NASA scientists spent months coaxing the 46-year-old Voyager 1 spacecraft back into healthy communication

By Meghan Bartels

NASA’s Voyager 1 spacecraft is depicted in this artist’s concept traveling through interstellar space, or the space between stars, which it entered in 2012.

NASA/JPL-Caltech

After months of nonsensical transmissions from humanity’s most distant emissary, NASA’s iconic Voyager 1 spacecraft is finally communicating intelligibly with Earth again.

Voyager 1 launched in 1977 , zipped past Jupiter and Saturn within just a few years and has been trekking farther from our sun ever since; the craft crossed into interstellar space in 2012. But in mid-November 2023 Voyager 1’s data transmissions became garbled , sending NASA engineers on a slow quest to troubleshoot the distant spacecraft. Finally, that work has paid off, and NASA has clear information on the probe’s health and status, the agency announced on April 22.

“It’s the most serious issue we’ve had since I’ve been the project manager, and it’s scary because you lose communication with the spacecraft,” said Suzanne Dodd, Voyager project manager at NASA’s Jet Propulsion Laboratory in an interview with Scientific American when the team was still tracking down the issue.

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The Voyager 1 spacecraft is a scientific legend : It discovered that Jupiter’s moon Io, far from being a dead world like our own companion, is instead a supervolcanic world . The craft’s data suggested that Saturn’s moon Titan might have liquid on its surface. And for more than a decade, Voyager 1 has given scientists a glimpse at what space looks like beyond the influence of our sun.

Yet its long years in the harsh environment of space have done a number on the probe, which was designed to last just four years. In particular, degraded performance and low power supplies have forced NASA to turn off six of its 10 instruments, and its communication has gotten even spottier than can be explained by the fact that cosmic mechanics mean a signal takes nearly one Earth day to travel between humans and the probe.

When the latest communications glitch occurred last fall, scientists could still send signals to the distant probe, and they could tell that the spacecraft was operating. But all they got from Voyager 1 was gibberish—what NASA described in December 2023 as “a repeating pattern of ones and zeros.” The team was able to trace the issue back to a part of the spacecraft’s computer system called the flight data subsystem, or FDS, and identified that a particular chip within that system had failed.

Mission personnel couldn’t repair the chip. They were, however, able to break the code held on the failed chip into pieces they could tuck into spare corners of the FDS’s memory, according to NASA. The first such fix was transmitted to Voyager 1 on April 18. With a total distance of 30 billion miles to cross from Earth to the spacecraft and back, the team had to wait nearly two full days for a response from the probe. But on April 20 NASA got confirmation that the initial fix worked. Additional commands to rewrite the rest of the FDS system’s lost code are scheduled for the coming weeks, according to the space agency, including commands that will restore the spacecraft’s ability to send home science data.

Although, for now, Voyager 1 appears to be on the mend, NASA scientists know it won’t last forever. Sooner or later, a glitch they can’t fix will occur, or the spacecraft’s ever dwindling fuel supply will run out for good. Until then NASA is determined to get as much data as possible out of the venerable spacecraft—and its twin, Voyager 2, which experienced its own communications glitch earlier in 2023 .

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Well, hello, Voyager 1! The venerable spacecraft is once again making sense

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Members of the Voyager team celebrate at NASA's Jet Propulsion Laboratory after receiving data about the health and status of Voyager 1 for the first time in months. NASA/JPL-Caltech hide caption

Members of the Voyager team celebrate at NASA's Jet Propulsion Laboratory after receiving data about the health and status of Voyager 1 for the first time in months.

NASA says it is once again able to get meaningful information back from the Voyager 1 probe, after months of troubleshooting a glitch that had this venerable spacecraft sending home messages that made no sense.

The Voyager 1 and Voyager 2 probes launched in 1977 on a mission to study Jupiter and Saturn but continued onward through the outer reaches of the solar system. In 2012, Voyager 1 became the first spacecraft to enter interstellar space, the previously unexplored region between the stars. (Its twin, traveling in a different direction, followed suit six years later.)

Voyager 1 had been faithfully sending back readings about this mysterious new environment for years — until November, when its messages suddenly became incoherent .

NASA's Voyager 1 spacecraft is talking nonsense. Its friends on Earth are worried

It was a serious problem that had longtime Voyager scientists worried that this historic space mission wouldn't be able to recover. They'd hoped to be able to get precious readings from the spacecraft for at least a few more years, until its power ran out and its very last science instrument quit working.

For the last five months, a small team at NASA's Jet Propulsion Laboratory in California has been working to fix it. The team finally pinpointed the problem to a memory chip and figured out how to restore some essential software code.

"When the mission flight team heard back from the spacecraft on April 20, they saw that the modification worked: For the first time in five months, they have been able to check the health and status of the spacecraft," NASA stated in an update.

The usable data being returned so far concerns the workings of the spacecraft's engineering systems. In the coming weeks, the team will do more of this software repair work so that Voyager 1 will also be able to send science data, letting researchers once again see what the probe encounters as it journeys through interstellar space.

After a 12.3 billion-mile 'shout,' NASA regains full contact with Voyager 2

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April 22, 2024

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NASA's Voyager 1 resumes sending engineering updates to Earth

For the first time since November, NASA's Voyager 1 spacecraft is returning usable data about the health and status of its onboard engineering systems. The next step is to enable the spacecraft to begin returning science data again. The probe and its twin, Voyager 2, are the only spacecraft to ever fly in interstellar space (the space between stars).

Voyager 1 stopped sending readable science and engineering data back to Earth on Nov. 14, 2023, even though mission controllers could tell the spacecraft was still receiving their commands and otherwise operating normally. In March, the Voyager engineering team at NASA's Jet Propulsion Laboratory in Southern California confirmed that the issue was tied to one of the spacecraft's three onboard computers, called the flight data subsystem (FDS). The FDS is responsible for packaging the science and engineering data before it's sent to Earth.

The team discovered that a single chip responsible for storing a portion of the FDS memory—including some of the FDS computer's software code—isn't working. The loss of that code rendered the science and engineering data unusable. Unable to repair the chip, the team decided to place the affected code elsewhere in the FDS memory. But no single location is large enough to hold the section of code in its entirety.

So they devised a plan to divide the affected code into sections and store those sections in different places in the FDS. To make this plan work, they also needed to adjust those code sections to ensure, for example, that they all still function as a whole. Any references to the location of that code in other parts of the FDS memory needed to be updated as well.

The team started by singling out the code responsible for packaging the spacecraft's engineering data. They sent it to its new location in the FDS memory on April 18. A radio signal takes about 22.5 hours to reach Voyager 1, which is over 15 billion miles (24 billion kilometers) from Earth, and another 22.5 hours for a signal to come back to Earth. When the mission flight team heard back from the spacecraft on April 20, they saw that the modification had worked: For the first time in five months, they were able to check the health and status of the spacecraft.

During the coming weeks, the team will relocate and adjust the other affected portions of the FDS software. These include the portions that will start returning science data.

Voyager 2 continues to operate normally. Launched over 46 years ago, the twin Voyager spacecraft are the longest-running and most distant spacecraft in history. Before the start of their interstellar exploration, both probes flew by Saturn and Jupiter, and Voyager 2 flew by Uranus and Neptune.

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