Planetary Radio: Space Exploration, Astronomy and Science - A hundred weeks in space exploration
Episode Date: December 4, 2024Sarah Al-Ahmed, the host of Planetary Radio, marks her 100th episode with a look back at the defining moments of the past 100 weeks of space exploration. We'll revisit previous Planetary Radio intervi...ews, including the launch of ESA's Juice mission to the icy moons of Jupiter with project scientist Olivier Witasse. Danny Glavin, the co-investigator for NASA's OSIRIS-REx, shares his thoughts after the triumphant return of samples from asteroid Bennu. Lindy Elkins-Tanton, principal investigator for NASA's Psyche mission, reflects on her team's mission to explore a metallic asteroid. Then, Bob Pappalardo, project scientist for Europa Clipper, discusses the mission's intense brush with Hurricane Milton before blasting off to unlock the secrets of a potentially habitable ocean world. We close out the show with Bruce Betts, the chief scientist of The Planetary Society, for What's Up. Discover more at: https://www.planetary.org/planetary-radio/2024-one-hundred-weeks  See omnystudio.com/listener for privacy information.
Transcript
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It's my 100th episode this week on Planetary Radio.
I'm Sarah Al Ahmed of the Planetary Society, with more of the human adventure across our
solar system and beyond.
Today we'll take a moment to celebrate this milestone for our show with a look back at
some of the defining moments of the past 100 weeks of space exploration. We'll revisit ESA's J.U.I.S.
mission as it sets out for Jupiter's icy moons, OSIRIS-REx returning precious samples from
asteroid Bennu to Earth, the launch of NASA's Psyche mission to explore a metallic asteroid,
and the beginnings of Europa Clipper's journey to unlock the secrets of a potentially habitable
ocean world.
We'll share parts of my previous conversations with members of the mission teams,
including J.U.S.E. project scientist Olivier Vitas,
Danny Glavin, the co-investigator of Osiris-REx,
the Psyche mission's principal investigator Lindy Elkins-Tanton,
and Bob Popolarno, project scientist for Europa Clipper.
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I planned to share a different episode this week,
but as I was reflecting on the discussions
that I've had during my time as host of Planetary Radio, it occurred to me that I've been given the
same advice from many people. When you accomplish something great, take a break. You can only
appreciate what you've done if you pause and reflect. I've had the privilege of speaking
to scientists and engineers during powerful points in their lives, moments of discovery and loss, the culmination of years of work,
triumphant launches and successful sample returns.
We'll begin by flashing back to April, 2023
and the launch of the European Space Agency's J.U.S.E. mission.
The European Space Agency's
Jupiter Icy Moons Explorer mission, or J.U.S.E.,
launched from French Guiana on April 14. This begins the
mission's eight-year journey to Jupiter, where it will study the moons Europa, Callisto, and Ganymede.
Jupiter's three largest icy moons may host liquid water oceans beneath their icy crusts.
This has prompted decades of speculation about these moons, how they formed and evolved over time,
how they interact with Jupiter, and about the potential for life on these worlds. ESA's JUICE mission aims to investigate their habitability
and expand our understanding of potentially life-harboring locations in the universe.
Dr. Olivier Vitas is a planetary scientist and a project scientist for the JUICE mission.
He joined the European Space Agency in 2003 and has worked on a number of missions, including
the Huygens probe to Titan, Venus Express, Chandrayaan 1, Mars Express, and the ExoMars
Trace gas orbiter.
That's an impressive resume.
In 2015, he joined the J.U.S.E. mission team and turned his sights to Jupiter.
Hi, Olivier.
Hi, hello Sarah.
How are you doing?
I'm doing really well. And it's been a really exciting week.
I want to congratulate you and everyone on your team for the successful launch of the
J.U.C.E. mission.
Yes, thank you very much.
It was a big week last week and that's the start of the new phase and the start of the
journey to Jupiter.
How are you and the rest of the team feeling?
Did you celebrate afterwards?
Yes, of course, of course.
We had a few celebrations.
I was in our operation center in Germany.
So people were split between the operation center and the J.U.C.E.
mission.
And I was in the operation center in Germany.
So people were split between the operation center and the J.U.C.E. mission.
And I was in the operation center in Germany.
So people were split between the operation center and the J.U.C.E. mission.
And I was in the operation center in Germany.
So people were split between the operation center and the J.U.C.E. mission.
And I was in the operation center in Germany.
So people were split between the operation center and the J.U.C.E. mission. And I was in the operation center in Germany. So people were split between the operation center and the J.U.. We had a few celebrations. I was in our operation center in Germany.
So people were split between our operation center in Germany and, of course, the main site in Kourou
in French Lugana. So on both sides, there were a lot of celebrations. And in the operation center,
now people are working very hard for the first phase of the mission.
So I can relax a little bit from my side, but there are people who are still working
very hard on this project.
I know that you guys had about, you know, like a one second launch window in order to
achieve the correct orbit.
What's the status of the mission?
Is everything on track right now?
As you have seen, so we launched with one day delay.
There was some bad weather and lightning activity at the time of the launch on the 13th of April.
So we postponed to the 14th. It launched on time. I mean, we had one second to launch, so we did it.
And then the launch sequence went absolutely perfectly. All the parameters were nominal.
I mean, everything was on schedule. So the separation, the injection
to space, I mean, it could have been better than that.
It's good to hear.
The GEMS web telescope, you know, the injection was perfect. There was a lot of discussion
about that. So for JUS, it's the same. So we don't need any correction maneuver in the
next week. So that's good.
Then after the separation, there was the first, the acquisition of the first signal from JUS.
Here there was a little bit of delay.
Some people got a bit nervous, but then it went well.
And the deployment of the solar panels happened a little bit earlier than expected.
So all in all, it went very, very well.
That's perfect because I know just like the James Webb Space Telescope, making sure that
you do the perfect launch and that you don't have to use that fuel means that you can do a whole lot more when you get to your target, which is perfect because you're going to need that fuel to get this mission into orbit around Ganymede at some point.
Now we need a lot of fuel. In fact, more than half of the spacecraft mass is fuel because we have a lot of maneuvers. We have a few maneuvers during the cruise phase, then we have a big maneuver when we're at Jupiter. Another major upsize maneuver when we arrive at Ganymede to enter in orbit around Ganymede.
And in between we have 34 flybys of the moons of Jupiter where every time we do a flyby,
we need a little bit of fuel to correct if needed. So we need a lot of propellant, so
it's good that the launch was perfect. Then we can keep a little bit
of margins for the future milestones.
And for people who are just now learning about this JUICE mission, what is this mission going
to do and why is it so important?
Everything is in the title. JUICE means Jupiter Ice Seamoon Explorer. So that means we'll
explore Jupiter and the ice seamoons, which are Europa, Callisto and
Ganymede.
And one of the big questions for our mission is to understand whether there are habitable
places within the ice moons of Jupiter around a planet like Jupiter.
The main question is to explore the liquid water, because when we talk about habitability,
the first thing to check is the presence of liquid water. And there is liquid water inside the AC moon. It's kind
of strange to think about it, but underneath the surface of Europa, Ganymede and maybe
Callisto there is more liquid water than on Earth. And JUS will explore that. And because
we want to understand habitable places around Jupiter, we will explore Jupiter as well.
So the atmosphere, the magnetosphere, and also the full system. So the other moons, And because we want to understand habitable places around Jupiter, we will explore Jupiter as well.
So the atmosphere, the magnetosphere, and also the full system.
So the other moons, Io, very interesting moon, the dust, and how everything is connected
to each other.
For example, how the moons are connected to Jupiter via the gravitational force.
As a result, there is tides on the surfaces of the moon.
So we'll explore that.
And they're also linked to Jupiter via the magnetic field line.
So there is a lot of magnetic things to discuss, to explore. So it's very rich
mission and very broad. And yeah, we are very excited by it.
And this is the first dedicated Jupiter mission by the European Space Agency, right? What
kind of sparked the creation of this mission?
Yeah, so that's the first time we go to Jupiter. So that's a very challenging mission. It's one of our biggest missions in ESA, at least in the
solar system exploration as a follow-up of the Rosetta mission, for example, this kind of big
mission. So a lot of challenges. First, we have to have a mission which lasts 10 to 15 years.
So there is a lifetime. We go to Jupiter, which is a very hard radiation
environment, very difficult to resist for the electronics, the spacecraft, the instrument.
We go there where it's cold around Jupiter. While doing the cruise to Jupiter, we go via
Venus. Venus, it's a warm environment. So we have to design a spacecraft which can work
in the cold environment, in the warm environment. Plus we'll do a lot of very sensitive measurement
of electric and magnetic field.
That's one of the measurement to very useful
to detect the liquid water underneath the surfaces.
And then we need to have a very clean spacecraft
from the electromagnetic point of view.
We don't want to measure what is coming out
of the spacecraft.
So the design was extremely challenging for this.
And because we are far from the sun,
little power, little, little solar illumination.
That means we had to embark huge solar panels.
So if you see how the spacecraft look like,
you see the big solar panel with a cross shaped
85 square meter of solar panels are huge.
So we need to find the right solar panels,
which can work in the
cold environment with low illumination conditions in the radiation environment. So all in all,
it's a very challenging mission.
Yeah. With NASA's Juno mission, they put it on an orbit that took it very far away from
Jupiter and then back in. And the readings of the radiation coming off this thing are
unreal. So how is the spacecraft
grappling with that level of radiation?
That's one of the big issues of any mission to Jupiter. So that means you have to check
what you can do. That depends on your science objective. For example, the Juno science objective
are to study Jupiter in detail, the interior, the atmosphere, the gravity field, the magnetic
field. So they
have a polar orbit and they go very, very close to Jupiter. And then they go very, very
far not to be in the radiation belt all the time. So they designed the trajectory depending
on their science goal. For JUS, we are mainly interested in the IC moon. So we need to orbit
in the equatorial plane of Jupiter. So different orbit than Juno, because Juno is a polar orbit,
JUS is an equatorial orbit, because we want to fly by the moon, so we need to stay in
this equatorial plane, where there is a lot of radiation environment. So we need to stay
at reasonable distance from Jupiter. So that's why we don't go to Io, because Io is very
close. We go only twice to Europa because also Europa is very interesting but
relatively close. And we focus on Ganymede because it's at a reasonable distance from
Jupiter. Ganymede is a very unique moon, very, very interesting. So we made Ganymede as our
prime target. So the first thing to cope with the radiation environment is to make sure
that your trajectory is fine with that. So not too close to Jupiter, for example. And then in the design of the spacecraft, we protect the very sensitive electronics
of the instrument and the spacecraft inside the satellite, in the core, in the middle
of the satellite, in what we call vault. So we have two big cavities in which we put all
the sensitive elements of juice, so such they are protected from the radiation environment.
And we have more than 100 of shielding a bit everywhere in the spacecraft to shield the
particular sensitive area.
And on the solar panels, which are outside the spacecraft, we put a layer of cover glass
to protect again from the radiation environment.
So you see, we have thought a lot about the design and that was the main requirement,
to protect the spacecraft as much as possible from the radiation environment.
And you need to keep all those scientific instruments able to do their job.
And there's a lot of them on the spacecraft.
What are the most important instruments on board JUS to help it do its mission?
Well, we have 10 instruments and they have been selected at the same time, of course,
and each of them to achieve specific objectives of the mission. And they have been selected
such that they can work together to address all the big questions of juice. So there is
no one instrument particularly more important than the other. They are all very important
because they have selected all together to fit the science objective of the juice mission.
We have three big packages. So we have the remote sensing instruments or the eyes of
J.U.S. or the cameras, spectrometers. So we have four of them because we want to take
images and to study the geology of the moons and the atmosphere of Jupiter. And then we
have spectrometers covering radio, near-infrared, visible and UV for the atmospheres and for
the surface. So that's how J.U how JUS will see everything around the spacecraft.
Then we have a package which is called Geophysics.
That's a very interesting one because that's the first time we fly this kind of instrument to the moons of Jupiter.
Here we have a radar to study the first 10 kilometers of the crust. So to penetrate the ice,
so we'll see the first 10 kilometers, how is the structure. So that's the first time we will do that.
And we have also a laser altimeter,
which is very, very interesting
because we measure the topography of the moon.
So we send laser shots.
And then from that, we can see the topography.
So if you have a small hills, craters and so on.
But what is very interesting is we will come back
to the same point many, many times
and we will see the tides of the moon.
So how the height of
the Moon changes with time. And that is a way to study the interior and the liquid water.
We have a radio science experiment to study the gravity field. And then we have what we
can call the nose of the spacecraft, it's in situ measurement of particles, electric
field, magnetic field, radio wave, to study in situ what is around the spacecraft is in situ measurement of particles, electric field, magnetic field, radio wave.
To study in situ what is around the spacecraft in time of particles and in particular for
the magnetosphere. And that's a way also to detect subsurface oceans. Each of them are
very useful and they will be all providing a small piece of the puzzle.
Jupiter has 92 moons, I think, at this point. But these ones have the potential for subsurface
oceans and therefore the potential for being habitable. Juice isn't going to be directly
detecting life, but what can it teach us about the potential for habitability on these moons?
JL. Well, first is to really confirm that there are liquid water. We are pretty sure there is liquid water at Europa,
relatively sure that there is liquid water on Ganymede.
Calisto, there is a question mark,
so Calisto is also quite interesting.
And the first thing to discuss
when you want to discuss habitability
is to really understand the properties of liquid water.
So because we don't know where it is,
so at which depth, we have some ideas, of course,
some indication, but course, some indication.
But for example, the subsurface ocean at Ganymede
could be at 100 kilometers underneath the surface,
but it can be 110, 120, 150.
So we need to know.
It's important.
We don't know exactly the depth of those oceans.
So is it 100 kilometers, 50, 80?
We need to know. Because we want to know the amount of water that you have there.
And also the composition, we know they are salty because we detect them with the magnetometer.
So we know they are salty.
That's an interesting piece of physics and detection, by the way.
But we don't know how much salt do they have there.
And the composition is quite important to characterize liquid water.
Is it an interesting water for life, et cetera? We will also be studying the radiation
environment because it's good to know the radiation environment. I mean, on Earth, we
are happy to have the magnetic field. Then we have less radiation coming from the sun.
So what is the case at Europa when there is no internal magnetic field and Europa is close
to Jupiter? What is the case at Ganymede
which is a bit further away, I mean much further away with an internal magnetic field. That's
the only moon to generate its own magnetic field, so very, very special. So what is the
role of this magnetic field? Does that help to protect? Not at all. How this interaction
between the magnetic field of Ganymede and the magnetic field of Jupiter. And what is
the case at Callisto?
The moon, which is the much further away with the Galilean moons. So in principle, it's
better for the radiation environment at Callisto. But at the same time, the moon is far from
Jupiter so the tidal activity is very weak. The moon has probably not evolved since its
formation. When you look at the surface of Callisto, it's plenty of craters. So that
means the surface is very young. Probably there is not much geological activity. So
is there a liquid water underneath the surface or not? That's an interesting question. And
the finding either yes or no will be interesting. And then you can compare the three moons.
So Europa, which is active with a possible geysers, very interesting ocean, but close
to Jupiter. Then you have
on the other end, you have Callisto, which is dead. We don't know if there is an ocean.
In principle, it's not very interesting for habitability and life, but who knows? And
then you have Ganymede in between. So a big question mark. So that will be a very interesting
to know more about those three moons and then to compare them and to understand better the
question of habitability and whether around Jupiter there is interesting
place to study life. And then to study life, we need another mission.
Juice is still out there on his way to Jupiter, soon to be joined by NASA's Europa Clipper
mission. But a year before the launch of Clipper, we were treated to another triumph. On September
24th, after traveling 7.1 billion kilometers over seven years,
NASA's OSIRIS-REx spacecraft delivered material from asteroid Bennu to Earth.
NASA's OSIRIS-REx mission launched in September 2016 with a primary goal,
to retrieve a sample from asteroid Bennu.
Samples of asteroids like Bennu can teach us a lot about the early solar system,
and potentially about the origins of life on Earth.
These primordial relics have remained largely unchanged since the early days of our solar
system over 4.5 billion years ago.
The tricky part is snagging the samples from the asteroid and then bringing them back to
Earth for analysis.
After reaching Bennu in December 2018, OSIRIS-REx faced the challenge of collecting a sample
from a terrain that was far rockier than anticipated.
Of course, in October 2020, the spacecraft team succeeded in high-fiving the asteroid
with its TAGSAM device, gathering pristine material from the asteroid and then preparing
to make its way back to Earth with the precious cargo.
And now, after an intense journey through space and the Earth's atmosphere, the sample
return capsule bearing bits of Bennu touched down in the Utah desert on September 24, 2023.
So what's next for the samples from Bennu and the OSIRIS-REx spacecraft?
We turn next to Dr. Daniel or Danny Glavin, the co-investigator of NASA's OSIRIS-REx mission.
He's an astrobiologist and a sample integrity scientist at NASA's Goddard Space Flight Center in Greenbelt, Maryland.
He's leading the team that will unravel the mysteries contained within the samples returned from Bennu.
He's delved into samples from the Moon and meteorites, and he's also involved in the Mars sample return mission.
I spoke with him just a few days after his return from Utah.
Hi, Danny.
Thanks for joining me.
Hey, it's great to be here.
Thank you for inviting me.
I have to say huge congratulations to you and everyone that's been working on OSIRIS-REx.
This is, for me, I feel like the biggest space moment of the year.
Yeah.
I mean, it was incredible. I mean, I was out at Dugway at UTTR for the landing. And
like everyone, you know, it was just like, please work. I want this parachute to open,
this precious sample, please come back, you know, safely and uncontaminated. And, you know, after
putting, you know, close to 15 years into this mission, it was really very emotional and
stressful until that chute opened and then I was able to relax for a second.
But yeah, it's just incredible that we can do these things.
I mean, going all the way out to an asteroid, collecting a sample over 200 million miles
away from Earth, fully autonomously, pick up a sample from the surface,
stow it, and then bring it back to Earth, survive atmospheric entry and landing, and, you know,
and now the sample is going to be literally distributed to labs around the Earth to analyze.
So it's really a very exciting time for planetary science. It is and that just puts it all in context working on this mission for 15 years
That's got to be just so satisfying to see how successfully it came down. Yeah, no doubt
I mean, I'm actually honestly still in disbelief about this whole thing, you know
I was telling people it felt like I was a cast member in a science fiction film, you know
We're really doing this but you know now samples are back. We've we've confirmed
You know, everybody's seen the images of the sample container open. There's clearly Bennu dust in there. And, you know,
we're getting ready to open it up further here over this next week. But there's sample
there. And so this is real. You know, we have this pristine, you know, four and a half billion
year old asteroid fossil, right, from the early solar system to analyze. It's just, it's just incredible.
This mission has had to leap over so many interesting hurdles just because we're beginning
to understand things about asteroids and sample return that we've never really had to encounter
before. Like there was that moment where it was actually trying to grab that sample, the
touch and go maneuver. And when I read how close that spacecraft got to literally almost being engulfed
by this rubble pile, I was really amazed. Yeah, I mean, it was scary, you know, and of course,
you know, we were because of the time delay, it was, I think, 18 and a half minutes or something
before the signal could come back to let us know that everything worked. We were,
everything had already happened, right? But it's high, we're looking at it. But yeah, I mean,
we went down and we thought it would be more like a pogo stick kind of thing off a hard surface.
And it was more akin to literally like jumping into a plastic ball pit, right? We sunk into the
asteroid and none of the, uh, the mechanisms we had a spring that was going to activate so that
would trigger the, the backaway thrusters. None of that went off. So there was no resistance
the asteroid as we plunged the sampler in. And fortunately, you know, the code, there was a timer
that triggered the back away thrusters and, you know, we were able to back away and get out of
there. But if that hadn't have gone off, if the thrusters didn't work, we, yeah, like you said,
we would have been swallowed up by Bennu. It would have been end of mission. But fortunately, you know, these engineers are incredible. They plan for every contingency, right? And they
made it happen.
Yeah. And then immediately after that, you get the samples into the actual sample container.
And it was so much sample, it couldn't even close its mouth. I keep trying to liken it
to a game of chubby bunny. It ate too many marshmallows and just couldn't keep its mouth
shut. Yeah, we swallowed a lot of Bennu, which It ate too many marshmallows and just couldn't keep its mouth shut.
Yeah, we swallowed a lot of Benu,
which was exciting because we got deep and we
packed the, we call it the Tag Sam collector, fall.
That was another really frightening, exciting,
I don't know what moment of the mission where we're taking images of
the sampler head before it was stowed away and there were particles. Benu particles coming out, as you know, we're taking images of the sampler head before it was stowed away and there were particles,
venue particles coming out. As you mentioned, one of the flaps was jammed open by a small stone.
And I think the PI of the mission, Dante Loretta said at the time, you know,
every single particle coming out is somebody's PhD thesis, you know, and he was right. He kind
of put it in perspective, like this is opportunity lost. So that initiated a very accelerated kind of stowage.
Originally we had planned to basically extend the arm with the sample in it and spin the
spacecraft around like a merry-go-round to make a moment of inertia, basically measurement,
to really precisely determine the mass of the sample in the head.
But you know, you don't do that if it's a leaking
sample. And so it was within days that we were able to get the thing tucked away, accelerated,
scheduled to get it stowed and safely sealed in the sample return capsule. So good news
is we know we didn't lose everything. We know that. We've got, I think the mass estimates
were something like 250 grams with an error of like 100 grams,
but we were convinced we met our requirement of 60 grams.
Yeah, we'll know soon here,
hopefully in the next, this week or so,
what the actual mass was,
but there's definitely sample in this collector.
That's gotta be really cool for you,
because I understand that you've just been gearing up
to check out these samples for a while. This is your bread and butter. So what are you most excited about
finding in these samples?
Yeah. So, I mean, for my career, you know, over the last, I would say 20 years or so,
I've been studying organics, organic compounds, the building blocks of life and meteorites.
So amino acids that make up all of our proteins and enzymes.
Nucleobases, these are the components that make up the genetic code in DNA
and RNA. And so we've been searching for these building blocks of life in
meteorites, basically trying to test this hypothesis that meteorites from
asteroids like Bennu could have delivered the seeds of life to the
early Earth and maybe other planets, which then helped give rise to life. So we're going to be testing that hypothesis one full swing with Bennu
for sure. And one of the frustrating things analyzing meteorites is that they've been
contaminated. As soon as they hit the atmosphere, they're heated, they're exposed to the atmosphere,
they hit dirt or ice or wherever they land on the Earth and immediately start being contaminated
by terrestrial organics. And we don't have that problem with Bennu, especially now after or ice or wherever they land on the Earth and immediately start being contaminated by
terrestrial organics.
And we don't have that problem with venue, especially now after the successful soft landing
of the sample return capsule.
These samples are going to be very clean.
And what that means is if you did start detecting organic compounds, you can really trust the
results that these are organics that were formed in space on this asteroid and it isn't
contamination that came into the sample later.
So I'm really excited about that, testing again this hypothesis that the prebiotic organic
compounds that led to life on Earth and maybe elsewhere, like Mars, could have come from
asteroids like Bennu.
Some of the sample return results have been made public, but I've been told that the
really juicy stuff is coming out soon. Danny Glavin will return to the show when he's ready
to divulge what they've learned. We'll be right back after this short break. Greetings, Bill Nye
here. 2024 was another great year for the Planetary Society thanks to support from people like you.
year for the Planetary Society, thanks to support from people like you. This year we celebrated the natural wonders of space with our Eclipsarama event in the
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Hundreds of us, members from around the world, gathered to witness totality.
We also held a Search for Life Symposium at our headquarters here in Pasadena and had
experts come together to share their research and ideas about life in the universe. And finally, after more than 10 years of
advocacy efforts, the Europa Clipper mission is launched and on its way to the
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Thank you.
As the Osiris Rex team was working to free the samples from the spacecraft, which turned
out to be way more complicated than expected, another mission team watched their beloved
spacecraft blast off.
The Psyche mission left Earth on a course to rendezvous with a potentially metallic
asteroid.
If you've been a fan of planetary radio for a while, you'll probably remember our next
guest, Lindy Elkins-Tanton.
She's a foundation and regents professor
in the School of Earth and Space Exploration
at Arizona State University.
She's also the principal investigator
for NASA's Psyche mission,
which launched on October 13th, 2023.
Lindy has shared so much of herself with us over the years,
not just detailing the Psyche mission,
but about her own life.
Her conversation with Planetary
Radio's previous host Matt Kaplan about her book, which is called A Portrait of the Scientist
as a Young Woman, makes me emotional every time I hear it. But today she's back for a
very special reason. After years of tireless effort and passion from her and her team,
NASA's Psyche mission is finally in space. It's on its way to explore the metallic asteroid also called Psyche,
which might just be the exposed core of a protoplanet from the early solar system.
But for Lindy, it's the culmination of so much more.
It's the realization of a dream, hard ones who perseverance and teamwork.
Hey Lindy.
Hey, good to see you.
Good to see you again and thanks for coming back on the show. Thanks, good to see you. Good to see you again. And thanks for coming back on the show.
Thanks.
I really appreciate it.
Yeah.
The last time we talked, I remember saying near the end after this launch, I wanted to
invite you back on because what a moment you've been working on this for so many years.
Like, how does it feel to finally have your spacecraft out into space?
Beginning to feel like it's a new normal. I had a countdown
clock running on my desktop and now it's a count up clock because it did work that way.
I'm beginning to feel like I'm catching up on sleep a bit. The spacecraft is performing so well
and we had such a roller coaster of challenges to overcome, including at the last minute before
launch. And so this feels like some surreal new kind of world.
Yeah.
Right.
What happened on launch day that made that so complicated?
Launch day itself was the most perfect and beautiful launch day ever.
But two weeks before launch, we discovered we had a problem with our cold gas thrusters
that they were going to overheat.
And this was just a couple of geniuses who I'm
indebted to forever at JPL who just thought, you know, I don't feel totally comfortable with this.
Let's look into it. And it turned out we, you know, had been given the wrong data,
which we based all of our operations on for years. And when they took their own data,
it was a different story. So suddenly, and this was the day I arrived in Florida,
thinking I had kind of let my guard down, which is always a mistake.
Like I was like, okay, we're just going to coast into launch. It's going to be a series of parties
and this amazing experience. And then suddenly it was just like red alert, because this could be
mission ending. If they overheated, we would no longer be able to turn our spacecraft and we
probably would never have known what failed on the thrusters. What a nightmare. A nightmare. So
suddenly 100, 150
people, like all hands on deck, every kind of alarm blaring you could imagine. 2 a.m. I'm on
Webex calls with 70 people and I just never, like honest to God, this was a masterclass in how teams
work best because it just could not have been handled better and found a solution and we did have to move the launch, you know, seven days. Incredible, it really solved it and that was
amazing and then we thought great, okay we're gonna launch on the 12th and we
get on the weather call by we, I mean, Henry Stone, the project manager and Ben
Weiss, the deputy PI and myself standing outside under the ease of this building
where we're having our team party. We had to go outside to take this call. The heavens open, it's pouring rain and we're
listening on the call and it's the super expert weather person from the Space
Force side saying, it's not looking good for the 12th, we're expecting tornadoes
and we're like, of course, of course we're expecting tornadoes. Of course we are. Actually Ben Weiss and I just started cracking up because it just could not have been more
perfect.
So we were just fated from the beginning to launch on Friday the 13th and that day was
the most perfect launch day ever.
So that's, you could imagine the kind of exhaustion and like hilarity we were entering into that
launch day with.
I hope you still got to have some of your parties though.
We had the parties anyway, but you can't really reorganize.
You know, you have, you have whatever five or 600 people coming and you know, it's just,
you're gonna have the party anyway.
So it's like a prelaunch party.
So on launch morning, I got up really early because I got to sit on console and the console
that I got to sit on, there were 10 different rooms of people doing operations for the spacecraft.
A bunch of them were at Kennedy Space Center
and then there's the big operations room
at Jet Propulsion Laboratory.
And we're all on headsets listening to the voice net
and we're all watching the consoles.
And so my console was in hangar AE on the Space Force side.
So I got up long before dawn, it's totally pitch black.
It come up to the gate to go into the Space Force side
and I've got my badge and I'm ready to go in.
And there were so many people coming on for launch
that they had actually opened two lanes
so that we could get onto the base
and they're checking all the badges.
And then the base and Kennedy are both just
miles and miles of swampy Florida wilderness jungle interspersed with occasional
gigantic launch complexes.
And there's no streetlights.
You're driving up this two lane road in the absolute pitch dark.
And then there's a little lighted sign by the side of the road that just says, go psyche.
It's just these wonderful moments.
It was a big, big deal. So many people making this happen,
and then, I don't know, 10 or 11,000 people came to see the launch as well. So
sitting in that console at Hangar AE and listening to the countdown, following it in my launch book,
and that was just an amazing experience. That's got to be so cool to see the people locally
cheering for
your mission because I got that sense. I've only been to one
launch or rather attempted launch at Kennedy Space Center.
But just seeing all of the shop windows with their signs for the
missions and all the people showing up, there's something
really cool about the community around that Space Center.
I love that. And we have so much support for this mission from
around the world, too. That was just a thrill to know that so many people were participating you know.
So we're going through and this is a big deal launch for SpaceX because it's their first NASA
deep space mission launch and just the eighth Falcon Heavy. So they really wanted it to go well
and we had great working relationship with SpaceX. And so all these teams from different organizations came together into one.
And the countdown is going so smoothly.
And the big higher ups from NASA who were in the room with me were like, this feels
good.
This is going to happen.
And we're going through the book.
And for a while, you know, there's just periods of silence because there's actually no problems
and nothing to work and everything's working.
And then at 10 minutes before launch, after doing the countdown now for hours, suddenly there's
a problem. And I wasn't sure, I knew it wasn't good, but I didn't know how bad it
was. So I turned to one of the JPL leadership who was sitting to my left
and he just swore, which he never does. And so, and then I thought, oh my gosh.
And so we all had collective thought, oh my gosh.
And so we all had collective, like 500 people
had a heart attack for two minutes
until it was resolved at launch minus eight minutes.
And then it proceeded.
What a roller coaster.
Oh my gosh, right.
I mean, it was good to just be afraid for a minute
because things were going very smoothly.
And then the rocket worked perfectly. And as soon as it was launched, we all ran out of the building and just watched
it with our eyes. And we looked up in the sky and we saw the rocket and we watched the
booster separate. And then we watched them land. And they're very close to us over there
at Hangar AE and the sonic booms and like rumbling, crackling sonic booms that are just,
I love that. Like people get excited about Formula One race cars,
but let me tell you, go to a Falcon Heavy launch.
And then there's no going back, it's just amazing.
And then I had to figure out how to drive myself
over to the press center,
because I and some of the JPL management
and our project manager, our deputy principal investigator,
all these people were like 10 of us,
they're supposed to meet at this conference room in the press center because they don't want us to meet
any press until we've kind of reached mission success, which is that we've got telemetry
and we're locked on and the solar panels are power positive and we're thermally stable.
Like these are a bunch of things that are, we don't even separate from the rocket till
62 minutes after launch.
And it could be even another two hours before those things are accomplished.
So we don't want any confusing like partial messages.
And so I did figure out how to drive over there through the 500 cars that were leaving
from all the people watching on the Cosmine and stuff, but it was very well done.
And I just took out my cell phone and hit record for one of these voice memos and just
kind of poured out everything that I was feeling at that moment, which I haven't listened to again yet. I kind of figured, I don't
know what I said, so that'll be interesting. That's a beautiful thing to record and keep,
you know, that you'll get to reflect on that moment and in the future. And our listeners have
been on this journey with you for literally years, not just about the psyche mission, but about your
personal life, your personal journey, everything you've overcome. So seeing you in this moment
and knowing that you have that record, I feel like that's so special and you're going to
have to, you're going to have to listen to it at some point.
I have to know I am. And I've been also keeping a notebook because I knew I wouldn't remember
all the incredible things that happened during the super intense, insane month that I was
living in Florida.
My husband moved down with me.
He's like, no, you're going to need me to grocery shop.
This is going to be great.
And so we supported each other.
We were each having work stuff going on.
And we had a little Airbnb with a pond behind it and we could kayak through the mangroves.
It was just so many things.
I wrote almost 70 pages of all of these experiences because I do, it was just so many things. I wrote almost like 70 pages of all of these experiences.
Because I do, I feel that.
And also, you know, like I wrote about in my memoir, there was a moment right during
step one where I had cancer and I had to go through chemotherapy and I had a huge amount
of nerve damage.
And for a while I was even having trouble walking and I had like huge muscle spasms
and like the body not working.
And so now, not only has my rocket launched, which is amazing,
but in the past year I've actually totally regained my health.
And so I now am pain free and I can jog and like, it's amazing.
So it's like this stellar moment. I just turned 58, which I fricking can't believe,
but I'm like, this is a really good moment. So I can't forget about it.
Yeah. This seems like a book all on its own.
Oh, I feel like it could be.
I don't know.
It's an intense emotional experience, that's for sure.
Yeah, so we show up at the press center,
and we had to sneak around the back
and come in the secret door so we could end up
in this closed conference room and not run into all
the press in the front.
And so we're all in there, and a couple of the guys
have hooked into the PsycheOps, and they're getting the data down. And they're like. And so we're all in there and a couple of the guys have hooked
into the Psyche Ops and they're getting the data down and they're like, wait, we're pyro positive?
We're like, wait a minute. First, we all watched the separation on the screen and everybody could
see that, right? It was broadcast via SpaceX's onboard cameras to everybody in the world and
you can watch it on the replay of the launch commentary. And we'd ask them to give us no angular momentum,
no spin at tip-off.
We wanted the spacecraft to be going absolutely straight
with no spin so that we could right away get down
to opening the solar arrays.
And we all watched, and our heads are tipping.
Is it spinning?
Is it rotating?
But it wasn't.
It was just perfect.
It just soared away.
And we knew there was some chances
that the low-gain antennas would get picked up by the deep space network and suddenly we're like,
oh my gosh, that was a little bit of telemetry. Wait a minute. What are we getting? And then
the solar arrays deployed, we're getting power. The spacecraft detumbles. It uses those coal gas
thrusters. It all works. The coal gas thrusters are not overheating. We couldn't even believe it.
They were so cool and perfect. And so then the head of the press group, this wonderful woman from JPL, she's used to there
being contingencies like anomalies and issues after launch. And she didn't want us to have to
be solving them while hangry after being on console for like five, six hours. And so she
went out to get us sandwiches thinking it was going to be hours more. And while she was gone, we hit all of the things needed for mission success. And so we locked
on, we had telemetry, the spacecraft was healthy, it was thermally stable, it was power positive.
She came back with the sandwiches and we're like, yay!
Victory sandwich!
Yeah, we couldn't even believe. We kept looking at each other and going like, pinch me, I
can't believe how well this is going. And then we took a million loopy pictures. And that was launch day. It
was amazing.
I hope so much that the Psyche mission images are as weird and beautiful as I imagine. If
anything were to inspire the next generation of people who want to empower human space
exploration by gathering resources on asteroids, it would
be those pictures.
Well, that and NASA's Lucy mission, which is on its way to Jupiter's Trojan asteroids,
and the United Arab Emirates' upcoming mission to the asteroid belt.
But of all of the fantastic missions to launch in the past years, the one that I was most
looking forward to was the launch of Europa Clipper.
I want to know whether or not there's life off of Earth,
and Europa Clipper might be key to that journey.
The spacecraft blasted off on October 14th, 2024,
after a nail-biting brush with Hurricane Milton in Florida.
Europa Clipper is the first dedicated mission
to explore a world with a global ocean other than Earth.
While it won't be detecting life directly, it's going to
perform a bunch of close flybys of Europa. They'll teach us more about its icy shell, its ocean,
the composition, and its geology. It's the largest spacecraft that NASA has ever built for a planetary
mission, and it was produced as a partnership between the Johns Hopkins Applied Physics Lab
and NASA's Jet Propulsion Laboratory. It has been a colossal effort on the part of thousands of people to make this mission
possible.
From the planetary scientists who made it a priority in the Planetary Science Decadal
Survey not once, but twice, to the advocates who got the mission the funding it deserves,
and of course, the scientists and engineers that had to do the hard work to actually put
together this beloved spacecraft. After all of this effort, the mission team and space
fans gathered in Florida to see the spacecraft off. Unfortunately, all of
that got waylaid by Mother Nature herself. Hurricane Milton, which was a
massive category 5 hurricane at one point, had Kennedy Space Center and all
of its launch facilities in its sites.
Bob Popolardo, who's a great friend of the show
and project scientist for Europa Clipper at JPL
joined me over the weekend.
He told me all about how his team weathered this storm
and launched this historic mission to Europa.
Hey, Bob, congratulations.
Thank you, thank you.
Quite a week it was.
Really though, and not just a week, it has been a saga since we last spoke a few months back.
And then so many things happened that put this launch in this kind of limbo for a while.
So I'm sure it's really relieving now that it's out there in space on its way to Jupiter.
Yeah, it seemed like our spacecraft didn't want to leave us.
How long have you been working on the spacecraft?
It's been so long.
Well, the mission got started in 2015.
Building of the spacecraft itself and integration of the instruments, probably a few years now.
You know, we've kind of covered this saga over the last few weeks.
First there was the issue with the SpaceX launch vehicle.
You ended up going up on a Falcon Heavy, but the Falcon 9 had an issue right off the bat.
So right there we had to wait for the FAA.
And then here comes Hurricane Milton to make it even more intense.
I know that you and a lot of your colleagues plan to be out there.
What was that like when you heard the hurricane was oncoming and did you guys all have to to leave?
Well, it was pretty tough. At first, everything seemed fine. I first got out there for a flight
readiness review and I got to see the encapsulated clipper in its fairing rollout of the clean room
where it had been worked on in Solar Razor Incorporated.
That was quite celebratory. And I remember getting an email or something from a team member and said,
oh, you know, it's supposed to be rainy next week. Like, rainy? I guess we hadn't heard that at our
flight readiness review. And then, yeah, people started talking about this storm brewing in the Gulf or the conditions
being right for a storm to brew in the Gulf and possibly hurricane.
And as time went by, yeah, that became a hurricane that was targeting KSC.
And we had a team meeting plan, science team meeting, most of the week as well.
So we had planned alternate versions of our science team meeting, you know, if the launch
didn't come off on the day plan, if we didn't plan for a hurricane, but we had the flexibility
to move things around.
And then as the forecasts were getting worse and worse,
we had discussion of what to do about the science team meeting.
There were already a lot of people there.
We said, okay, you know,
we're going to assume people aren't going to continue to come to our meeting
and said so to folks, but the people who were there said, yeah,
we'd still like to, even if this is a hybrid meeting,
we'd still like to be in person.
We met the first day and everything was fine on Tuesday of last week, but then it was clearly
going to be a big storm the next day and we canceled and then the storm was slowing down.
So we canceled for Thursday and a lot of people were just gathering and having a good time
in the hotel. We showed movies on the screen because there are a lot of kids there, a lot of people were just gathering and having a good time. In the hotel, we showed movies on the screen because there are a lot of kids there, a lot
of families, right?
I like to put everything in terms of Star Trek analogies.
So I wasn't used to being on the Enterprise D at our team meeting, where we had the families
there as well.
So it was actually, I think, the prior day
where a colleague called and said,
you know, there's a chance you're
going to be in the front right quadrant of a hurricane.
Like, yeah, well, that's the quadrant that spawns tornadoes.
And there was no talk of tornadoes on the news.
I was watching very carefully and keeping up
with all of the emergency info.
And then Wednesday afternoon, the tornado warnings started coming and creeping up from
the south toward us.
So I went downstairs, make sure everything's good.
And again, people are playing games and talking and watching movies in the ballroom.
And I asked the hotel staff, where's the right place to be in case of tornado?
At least the ballroom is an inner building or stairwell.
And so then when all the warnings went off on people's phones,
calmly asked people to please come into the ballroom.
And everyone was now in there who was downstairs.
And then the tree, the palm trees outside started blowing sideways.
And it was getting darker and darker.
The hotel staffs like, inside, inside. And
we learned that evening that the bank building across the street had its roof blown off.
Oh my gosh.
And part of the parking garage metal between our building and the next was tossed around
in light poles and like, it wasn't't until a couple days later I learned that indeed
our hotel had been nipped and had some damage as well. So that was nerve-racking. Power went out
that night and we ended up moving everyone to another hotel, same brand, not far away on Thursday when things quieted down and our whole meeting
moved as well. Yeah, my gosh. We picked up again on Friday and had some some good
conversations but you know it was pretty nerve-racking and then the weather
cleared and the reviews picked up again and our project manager mentioned yeah
sometimes after most of the time after a hurricane, the weather can be really clear and beautiful and it was and
we ended up with a perfect launch day on Monday.
That is such an emotional whirlwind right there.
I mean, you already had so much on your plate just with this mission and now you're in this
scenario where you're responsible for making sure all these families
are okay in this scenario, trying to keep it together in the middle of tornadoes and
hurricanes.
Like, my gosh, it must have been such a weird kind of whiplash moment to finally have the
clear skies and have that catharsis of actually seeing it launch after all of this tension.
Yeah, yeah.
It was incredible.
I'd seen a couple of small launches.
Well, I saw a small launch and then I felt a small launch up here at Vandenberg because
it launched in the fog.
And this was different.
We gathered in kind of VIP area and much of the team was out in the stands there watching the event.
And it was more than I had imagined. Things quieted down as the final countdown occurred,
and we watched, and people cheered. And then when the roar, the shockwave hit,
and the light was as bright as burning magnesium. You couldn't even look at it.
It changed my impression of this. There was so much power in that launch. It just became
something different. It was almost as much of a spectacle as seeing a solar eclipse where it's like, oh my god, what is happening here?
We're tossing this thing off of our planet with this enormous
Falcon Heavy rocket. It was just more than I can express. And people were quiet
and just mouthing, oh my god, all around. It was something to experience.
There are some moments that you can try to prepare yourself for emotionally,
but until you're standing in it,
there's really no way to convey what that's like.
And I've never seen a Falcon Heavy myself,
but after speaking with my coworkers about their impressions of it
during the LightSail 2 launch,
I mean, you can tell that it changed them
and their entire perception of
what we're doing here trying to do space exploration. It really gets to the visceral nature.
We're literally strapping some of the greatest hopes of humanity onto a controlled bomb and
firing it off of our planet. And of course leading up to that and seeing the rocket the
prior day, you know, there was a feeling of pride and excitement. And that night,
the night before the launch, we had a big family and friends event and Ada Lamone, the US Poet
Laureate, read her poem for Europa and it was wonderful. She was there at the launch as well.
But yeah, I feel like nothing could have really prepared me. So not just for the emotion of seeing this craft that we had spent years and years and
had concepts going back 25 and more years actually launch, but the power involved in that launch
being just so overwhelming. Yeah, it was something. After a lifetime of loving and studying space,
I do not have words to describe what it's like
to meet all of these amazing space people.
When I became the host of Planetary Radio,
Matt Kaplan, who is the creator and former host of the show,
told me that this was my chance to meet my space heroes.
And it turned out to be true.
I've met so many people that I looked up to,
and there are a bunch of adventures left to come. Of course, despite my almost two years on this show,
there is another person who wins the award for the most appearances on
planetary radio. I'm not even number two, that award goes to Matt, but number one
is held by our chief scientist Dr. Bruce Betts. Bruce has been featured in every show for the last 22 years.
We turn to him next for What's Up.
Hey, Bruce.
Happy 100, Sarah.
Thank you.
Although it's an interesting thing coming from you,
you've been at this so much longer than me.
You've been on over 1,100 episodes at this point.
Yeah, that's really, really, really odd. Isn't it? And wonderful.
What was your experience in the first days doing what's up with Matt back in the
day?
I was pleased to be doing a show and doing it with Matt,
who I didn't know very well at the time.
Now we both know each other better than we want to.
And basically what I was presenting particularly at that time and ever since were things that I had done from before I joined the planetary study,
these random space facts and why I used to do trivia and what's going on in the sky.
So I had the concept, but I done it on a phone answering machine. Yes, that's how far back
my idea goes, where people could call in for weekly things but the
ability to get it on out and to the roof radio was the main focus at that time
starting on the UC Irvine campus radio station where it all started
Matt being an alum later one of my sons being an alum but unrelated anyway that's
why I first started babbling and And obviously I continue to babble. How is your hundred episodes? It doesn't seem like we've done
a hundred episodes, but then I have a bad perception of time.
Well, it's not the weird thing. I mean, I know I keep making all these jokes in my personal
life about time being relative. And I've gone on some weird adventures since I started this.
And as I was kind of putting together this episode and trying to reflect on two years
of doing this show almost.
Earth years, I mean.
Earth years, fair.
Okay.
Yeah, when I hit one year on Saturn, then we know it's big time.
But really though, the wacky adventures that I'd almost forgotten I got to go on, because
there's just been so much continuous awesome doing this job.
It's been really cool having a moment to just kind of sit down and look back on all of that.
That's neat. Yeah, I've done some wacky things, although less so recently.
I've meloed in my middle age. Although Matt did give me run over by a rover at one time.
What do you mean you got run over by a rover? What does that even mean?
Now we were at a convention conference thing and they had some model small rovers that they
were driving and they drove them over, Matt and I lying on the ground with some classic
images.
I mean, as long as you didn't get hurt, it's all fun and games until someone gets destroyed
by a rover wheel.
It's all fun and games so you get crushed by a Rover wheel. It's all fun and games. So you get crushed by a Rover wheel. Right.
Yeah. None of those adventures just yet. But I mean, I've gotten to go to JPL.
I have gotten to see cool rocket launches.
I've spoken with some scientists in these intense moments in their lives
where they've just seen their spacecraft return or just launch.
It is just such a privilege to be in a space
where I can talk to people at these moments.
And I'm sure years later,
we'll be able to look back on all this
and it'll be cool to have.
It's been a privilege working with you
and you've done a fine job bringing the sense of excitement
and thrills and enthusiasm to the world about other worlds.
Happy to be the sunflower to your Eeyore. You know, if people like Matt
and you in your own different ways weren't such sunflowers, I wouldn't have to be Eeyore
so much. True. Well, here's to our next 100 episodes, Bruce. Hopefully we'll be doing
this for a while. Party on!
Party on!
Well, you know, unless you're cutting me off in the next 100, let me go ahead and present something.
Let's do it.
All right.
Random space flight for Sarah.
Just for everyone, but I dedicate this one to you, Sarah.
Thank you.
I was thinking, I was thinking, where is the hottest place in the solar system if you ignore
that sun thing?
And then things tightly influenced up close and personal corona of the sun.
Some people, the usual question you get like, oh surface of
Venus, but no, it's the cores of those pesky planets and you can bigger your
planet, the more you can heat up that core. So Jupiter, hottest place in the
solar system, you're never gonna get there besides the Sun and related things.
I mean the estimates are pretty broad because oddly enough it's hard to measure but ballpark
25,000 Kelvins 44 45,000 Fahrenheit 25 and basically the same Celsius because no one cares about
273 degrees once you reach
25,000 but it's hot down there a lot of it also very weird leftover from in original formation and gravitational collapse
of the planet and converting to heat energy and also from other things.
But we at least think the models say it's hot down.
Jupiter does give off, I think like one and a half times more energy than it receives
from the sun.
That is a wild number. Yeah. But really cool.
I mean, it makes sense,
especially in the context of all those conversations I've had with people
studying data about the moons of Jupiter,
just the idea that the Jupiter itself was so bright,
it might've impacted the way that some of these moons formed is so cool.
It's a big one. Right.
I don't know if you know that, but I'm a professional.
Trust me, it's big.
But trying to do that kind of calculation
where you're trying to figure out
how warm the inside of a planet or a star is,
knowing that we're never gonna be able
to drill down in there.
Like there is so much that goes into that calculation.
Yeah, it's cool.
I mean, yeah, I guess so.
Or I guess technically it's hot.
Ha ha ha ha.
But I'm sure that that was so great.
We should finish with that.
I know, right. 100 episodes. I'm out of jokes. Let's do this.
All right, everybody go out there, look up the night sky and think about
the favorite joke you've heard, Sarah Tell on Planetary Radio.
Thank you.
Good night.
We've reached the end of this week's episode of Planetary Radio, but we'll be back next
week with a special collaboration.
We'll share Neil deGrasse Tyson's Star Talk interview with the Planetary Society's CEO, Bill Nye the Science Guy. Thank you so much for coming on this journey with us to
learn more about the cosmos and our place within it. We can only do this show and all
of our advocacy work because of your support and passion for space exploration. Thanks
for making my first 100 episodes so special. If you love the show, you can get Planetary Radio t-shirts at planetary.org slash shop,
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Special thanks to Andy for everything he's done
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which is arranged and performed by Peter Schlosser.
And until next week, ad astra.