Landing Play-by-Play with JPL’s Rob Manning

Artist's rendering of a spacecraft with blue solar panels approaching Mars in space.

For the last 10 months, the Mars 2020 Perseverance mission has been on a long and lonely journey through space, headed for its ultimate destination: Mars. Around noon today, the Perseverance rover and Intrepid, its helicopter companion, will begin their descent to the surface of the Red Planet. It will be a tense time as the spacecraft carrying the mission engages in its final maneuvers and makes its way through the Martian atmosphere.

Those working at mission control at JPL, which Caltech manages for NASA, know the routine that is coming. They have practiced it, they have planned for contingencies, and they will know what the rover is doing each step of the way.

But for folks watching at home, this final leg of the rover’s long trek might be harder to follow. We spoke with Caltech alumnus Rob Manning (BS ’82), chief engineer at JPL, who gave us a breakdown of what to expect.

Final Preparations: 12:15 p.m. Pacific Standard Time (PST)

Right around 12:15, Manning says, things will start to get interesting: “The spacecraft will begin preparing itself for entry and turning off unnecessary equipment onboard. It doesn’t need the cruise stage that took it to Mars anymore, so it will be getting ready to push loose from that. It will also vent the coolant that has kept the rover cool on the way to Mars.”

An artist's rendering of a spacecraft separating from its cruise stage as it nears Mars.

The spacecraft separates from its cruise stage.

Credit: NASA/JPL-Caltech

Cruise Separation: 12:40 p.m. PST

“About 12:36, the cruise separation will begin; it should be confirmed around 12:40. About 10 minutes after that, at 12:50 p.m., the vehicle will turn its orientation to point its heat shield at the atmosphere.

“The loss of the cruise stage means we no longer can hear ones and zeroes from the rover because the cruise stage has a big antenna the rover uses to talk to us. We can still see the rover on radio, but we can’t listen to it the same way.”

An artist's rendering of a satellite above the surface of Mars. Some of the planet's surface is covered in ice.

The Mars Reconnaissance Orbiter, which was launched in 2005.

Credit: NASA/JPL-Caltech

Mars Reconnaissance Orbiter: 12:47 p.m. PST

“Luckily for us, the Mars Reconnaissance Orbiter will begin passing over right as we’re doing all this, and it will act like a big digital mirror, bouncing signals from the rover back to Earth. We will start getting data flowing from the rover around 12:48 p.m., just about when we start entering the atmosphere. When we enter the atmosphere, we will get another signal blackout for about a minute.”

An artist's rendering of a spacecraft with hot plasma around it as it passes into the Martian atmosphere.

The spacecraft carrying the Perseverance rover heats up it enters the Martian atmosphere.

Credit: NASA/JPL-Caltech

Entry: 12:48 p.m. PST

“This vehicle has aircraft-like properties, so it has the ability to fly. While we’re in the signal blackout, it will begin steering itself toward its landing site.

“The real exciting thing is when the parachute will open up at 12:52 p.m. and 30 seconds. We should be able to see that in the data. Or we won’t see anything, but we’re hoping that won’t happen.

“The heat shield comes off about 30 seconds later and the rover will hang from the parachute, descending and waiting until it’s about a mile above the surface.”

An artist's rendering of a spacecraft descending through the Martian atmosphere on its parachute

The spacecraft and its parachute.

Credit: NASA/JPL-Caltech

Powered Descent: 12:54 p.m. PST

“This will be the first moment we have ever used a camera on the rover to have the rover figure out where it is. It will take pictures of the ground below it and compare them to its onboard maps. It does all of that on its own.

The rover appears above the Martian surface, descending with its rockets.

Now separated from its backshell and parachute, the rover begins powered descent.

Credit: NASA/JPL-Caltech

“At about 12:54 and 30 seconds, the rover separates from the backshell, which contains the parachute. By this time, it already has a plan about where it’s going to land.

“At 12:55, the sky crane will deploy and the vehicle will lower itself down to the ground. Thirty seconds or so later, we will start having telemetry that will tell us that it has landed.”

The rover, now descended from the sky crane, rests on the Martian surface. The rocket-powered backpack hovers above.

The rover touches down on the Martian surface.

Credit: NASA/JPL-Caltech

First Images: 12:56 to 12:57 p.m. PST

“In the minute or two after we land, we might be able to get ourselves some postage-stamp-sized images from the onboard cameras. They will be small, and everything will be dusty, but these might be our first images.”

Silence: 12:57 p.m. to 4 p.m. PST

“Our hope is that by 12:56 or 12:57, we can confirm landing, because after that, Mars Reconnaissance Orbiter drops below the horizon, and everything goes silent. Then we have to wait three hours for Mars Odyssey to pass over. It could be a cliffhanger!”

A satellite-like spacecraft appears above the icy surface of Mars.

The Mars Odyssey spacecraft, which was launched in 2001 and continues to orbit Mars.

Credit: NASA/JPL-Caltech

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