Space Is Very Big. Some of Its New Explorers Will Be Tiny.


Last 12 months, two satellites the scale of cereal packing containers sped towards Mars as if they have been on an invisible observe in house. Officially known as MarCO A and MarCO B, they have been nicknamed Wall-E and EVE, after the animated robots from the Pixar film, by engineers at NASA.

They have been simply as endearing and susceptible as their namesakes. The satellites, referred to as cubesats, have been despatched to observe over NASA’s bigger InSight spacecraft because it tried a deadly touchdown on the floor of Mars on the finish of November.

Constellations of small satellites just like the MarCOs now orbit Earth, utilized by scientists, non-public corporations, highschool college students and even governments looking for low-budget eyes within the skies. But by no means earlier than had a cubesat traveled 90 million miles into house.

On Nov. 26, because the InSight lander touched down, its standing was swiftly relayed again to Earth by the 2 trailing cubesats. The operation was successful, and the efficiency of the MarCO satellites could change the best way missions function, enabling cubesats to develop into deep house vacationers in their very own proper.

NASA engineers weren’t certain what to anticipate when the MarCO mission launched final May. “I think it’s opened up so many doors and kind of shattered expectations,” mentioned Anne Marinan, a techniques engineer on the Jet Propulsion Laboratory in Pasadena, Calif. “The fact that we actually got as far as we did with both satellites working was huge.”

About a month after dropping InSight onto Mars, NASA lost contact with the MarCOs. The agency may attempt to wake them up someday, but for now Wall-E and EVE are silently roaming the solar system, proof of a new space exploration technology that almost never got to the launchpad.

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The MarCO mission was canceled repeatedly. After all, the primary goal of NASA’s InSight mission was to land a stationary spacecraft on Mars and listen for marsquakes, giving scientists an improved picture of the red planet’s internal makeup.

And multiple spacecraft orbiting Mars already relay information from its surface back to Earth. The cubesats wouldn’t play a direct role in InSight’s success or failure, so it was a challenge to persuade NASA to support a nonessential program using unproven technology.

The MarCO team fought hard, prevailing at last with the argument that at a cost of only $18 million, the idea was worth taking a chance on. If these two tiny satellites worked well, it would not only mean that similar spacecraft could support big planetary missions in the future, but also that cubesats might carry instruments of their own.

Proving the technology’s reach could stretch NASA’s funding, the engineers said, while creating opportunities for wider exploration of the solar system.

As InSight safely touched down on Mars, the MarCOs were zipping past the planet, collecting readings from the landing and relaying them home more swiftly than the satellites currently orbiting Mars could.

“We had some astonishing statistics,” said John Baker, manager of the SmallSat program at J.P.L. “We ended up getting 97 percent of all the InSight data back. And that’s because we had two small spacecraft at exactly the right position over the planet to receive the signals.”

Having custom cubesats overhead meant that NASA did not need to use other Martian satellites or worry about their alignment at the time of landing. If future missions tow along their own MarCOs, teams back on Earth may always know how their spacecraft are doing.

The creativity of their design contributed to the cubesats’ success. Before they began constructing the MarCOs, the team made 3D models and used yarn to plan how best to run the guts and wiring inside. The MacGyver-like improvisation resulted in part from the program’s low budget.

The cubesats run on solar power, and their propellant is fire extinguisher fluid. Lining the front of both spacecraft are eight pen-width nozzles that spray cold gas. The cameras onboard are off-the-shelf, and the radio is similar to that in an iPhone.

But it wasn’t all easy. On their six-month journey to Mars, both cubesats occasionally lost contact with Earth. A couple of months after launch, MarCO B sprang a fuel leak and started spinning out of control. The team thought they’d lost it.

“Management is slowly encroaching upon the room,” said Andrew Klesh, MarCO’s chief engineer, describing the scene. “We started to look at all the data. We broke apart the problem, and within about 24 hours we had MarCO B back under control.”

Just a day before landing, MarCO B stopped communicating with Earth again. The cubesat came back online just in time. The InSight probe moved into the Martian landing phase that NASA officials know as “seven minutes of terror,” and both spacecraft spoke to Earth the entire time.

Mr. Baker and others at J.P.L. are currently working on planetary cubesat missions. One proposal, nicknamed Cupid’s Arrow, envisions using the spacecraft to study the opaque atmosphere of Venus.

In other proposals, the next iteration of interplanetary cubesats would be scouts deployed by larger spacecraft studying worlds that could be hospitable to life. They could be sent into the plumes of Enceladus, Saturn’s icy moon, which ejects water vapor into space. Or cubesats could descend toward the surface of Europa, the ocean moon of Jupiter.

“These spacecraft will allow us to act as the Star Trek probes to go down to the surface of challenging worlds where we might not be able to take the risk of a much larger mission,” said Dr. Klesh.

When NASA’s next-generation rocket, the Space Launch System, heads for its first practice orbit around the moon (a launch which is facing delays), it will carry 13 cubesats, some as tests of technology and others as science experiments.

One cubesat, for example, will be tasked with mapping sources of water on the moon for future human exploration. Another, called NEA Scout, is being designed by Dr. Marinan to monitor nearby asteroids that could pose potential hazards to our planet.

Private companies are working on shrinking scientific instruments to be placed aboard the next generation of Earth-orbiting satellites. And as instruments become smaller, the options for singular scientific missions in deep space become greater, as does the potential for whole fleets of MarCO-like satellites.

But much work remains before more cubesats can travel beyond the moon. The challenges that come with operating full-size planetary missions apply to small satellites, too.

If you want to go to the Jovian system, you need heavy radiation shielding. If you want to go to Saturn, you need more efficient solar panels and ways to keep the tiny spacecraft warm.

“We think we can actually send a small spacecraft all the way to Jupiter,” said Dr. Baker. “The problem is, I have to come up with a way of automating the onboard spacecraft so that it can fly itself to Jupiter or you only have to talk to it once a month. Or we create a way for it to only radio home when it needs help.”

These are the kinds of engineering challenges the MarCO team worked to overcome with the journey to Mars.

“It’s really opened a door of possibilities now that we have shown that this has actually worked,” said Dr. Marinan. “It’s not an impossible concept anymore”

The engineers even managed to get around one of the tricker issues with how to collect data and talk to the cubesats. Typically, when a spacecraft calls home, it will spend several hours using NASA’s Deep Space Network, the very expensive phone system for calls beyond the moon.

But these long-distance conversations weren’t an option for the MarCOs. So the team at J.P.L. created new ways of monitoring the spacecraft that allowed them to collect in a one-hour period the data that would usually take eight hours.

“MarCO is a herald of new things to come,” said Dr. Klesh. “Not necessarily better things, but different, and a new way of space exploration that will complement all the larger missions that we do.”

As it passed Mars, MarCO B returned the first photo ever taken from a cubesat in deep space. It revealed the copper-colored entirety of Mars in the dark of space, and a small section of the spacecraft’s antenna.

The angle of the photo was intentional — not only to show where we’ve been, but a hint at where these tiny wanderers could go next.



Source link Nytimes.com

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