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Wednesday, July 27, 2022

NASA Will Send More Helicopters to Mars - The New York Times

Instead of sending another rover to help retrieve rock and dirt samples from the red planet and bring them to Earth, the agency will provide the helicopters as a backup option.

The first helicopter that NASA sent to Mars worked so well that it is sending two more.

The helicopters are similar to Ingenuity, the “Marscopter” that accompanied NASA’s Perseverance rover to Mars. But they’ll have the added ability of being able to grab and transport small tubes filled with bits of Martian rock. (Think of them as extraterrestrial drones, similar in concept to the ones Amazon has been developing to deliver packages.)

That is part of a major rejiggering of NASA’s next great mission to Mars, a collaboration with the European Space Agency to bring Martian rocks back to Earth for close examination by scientists using state-of-the-art laboratory equipment that cannot fit into a spacecraft.

“We have a path forward using a revised and innovative architecture,” Thomas Zurbuchen, the associate administrator for NASA’s science directorate, said during a news conference on Wednesday that provided an update on the mission, known as Mars Sample Return.

The Perseverance rover has been drilling rock samples during its exploration of a crater named Jezero. Its focus is on a dried-up river delta along the crater rim, a prime location where signs of ancient life might be preserved if any organisms ever lived there.

The original plan was to send a rover built by the ESA to pick up the samples and carry them back to the lander, where they would be loaded onto a rocket and launched into Martian orbit. Another spacecraft would grab the container with the rocks and take them to Earth. But the design of the rover was becoming bigger, and it, along with that rocket, was getting too heavy to fit on one lander. Earlier this year, NASA announced that it was going to use two landers — one for the rover, and one for the return rocket.

The mission redesign eliminates the fetch rover. Instead, the plan is for Perseverance to drive to the lander, where 30 rock samples would be loaded onto the return rocket. As Curiosity, a rover with a design that is almost identical to that of Perseverance, continues to operate on Mars a decade after its arrival, NASA managers are confident that Perseverance will still be in working order when the Mars Sample Return lander arrives in 2030.

NASA/JPL-Caltech

The helicopters would be a backup option if something went wrong with Perseverance. The sample return lander would settle close to where Perseverance had dropped the rock samples on the ground, sealed within tubes about the size of cigars. The helicopters would then fly the samples back to the lander.

The trip back to Earth would take a few more years, landing in a small capsule in 2033.

NASA officials have been surprised by the continuing accomplishments of Ingenuity, carried to Mars on the underside of Perseverance. Originally, the helicopter was going to fly a few times during a one-month technology demonstration soon after the mission landed on Mars in February 2021, and then Perseverance would leave Ingenuity behind and get on with its main scientific mission. Ingenuity has now flown 29 times.

Perseverance

The NASA mission includes Perseverance, a 2,200-pound rover, and Ingenuity, an experimental Mars helicopter.

Ingenuity Helicopter

The four-pound aircraft will communicate wirelessly with the Perseverance rover.

Solar Panel

Blades

Four carbon-fiber blades will spin at about 2,400 r.p.m.

Power

The plutonium-based power supply will charge the rover’s batteries.

MAST

Instruments will take videos, panoramas and photographs. A laser will study the chemistry of Martian rocks.

PiXl

Will identify chemical elements to seek signs of past life on Mars.

Antenna

Will transmit data directly to Earth.

Robotic arm

A turret with many instruments is attached to a 7-foot robotic arm. A drill will extract samples from Martian rocks. The Sherloc device will identify molecules and minerals to detect potential biosignatures, with help from the Watson camera.

Perseverance Rover

The 2,200 pound rover will explore Jezero Crater. It has aluminum wheels and a suspension system to drive over obstacles.

Ingenuity Helicopter

The aircraft will communicate wirelessly with the rover.

Solar Panel

Blades

Power

The plutonium-based power supply will charge the rover’s batteries.

MAST

Instruments will take videos, panoramas and photographs. A laser will study the chemistry of Martian rocks.

PiXl

Will identify chemical elements to seek signs of past life on Mars.

Antenna

Robotic arm

A turret with many instruments is attached to a 7-foot robotic arm. A drill will extract samples from Martian rocks. The Sherloc device will identify molecules and minerals to detect potential biosignatures, with help from the Watson camera.

Perseverance Rover

The 2,200 pound rover will explore Jezero Crater. It has aluminum wheels and a suspension system to drive over obstacles.

Solar panel

Ingenuity Helicopter

Blades

Power

Mast

PIXL

Antenna

Suspension

Perseverance rover

Robotic arm

A turret with many instruments is attached to a 7-foot robotic arm. A drill will extract samples from Martian rocks. The Sherloc device will identify molecules and minerals to detect potential biosignatures, with help from the Watson camera. PiXl will identify chemical elements to seek signs of past life on Mars.

By Eleanor Lutz | Source: NASA

But the Ingenuity’s flights — a difficult technological challenge in the wispy air of Mars — were so successful that NASA decided to have the helicopter continue to follow Perseverance, serving as an aerial scout of the landscape ahead.

“We reached our decision based on new studies and recent achievements at Mars that allowed us to consider options that, frankly, weren’t available to us one year ago or before,” Dr. Zurbuchen said.

The helicopters for the sample return mission would be roughly the same size, but with the addition of small wheels at the bottom of the landing legs. That would allow each of the helicopters to drive a short distance to straddle a sample tube; then, a small robotic arm would pick up the tube.

With the elimination of the fetch rover, the Mars Sample Return mission only requires one lander, not two. That simplifies the mission design — each landing on Mars adds to the risk — and helps keep costs down.

The total cost of the mission will be billions of dollars, but NASA would not speculate how much. “All I can say right now is the obvious,” said Jeff Gramling, the director for the Mars Sample Return program at NASA. “One lander certainly is much less costly than two.”

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