I'm an astronomer who builds telescopes.
I build telescopes because,
number one, they are awesome,
but number two,
I believe if you want to discover
a new thing thing about the universe,
you have to look at the universe
in a new way.
New technologies in astronomy,
things like lenses, photographic plates,
all the way up to space telescopes,
each gave us new ways to see the universe
and directly led to a new understanding
of our place in it.
But those discoveries come with a cost.
It took thousands of people and 44 years
to get the Hubble Space Telescope
from an idea into orbit.
It takes time,
it takes a tolerance for failure,
it takes individual people
choosing every day not to give up.
I know how hard that choice is
because I live it.
The reality of my job is that I fail
almost all the time and still keep going,
because that's how telescopes get built.
The telescope I helped build is called
the faint intergalactic-medium
red-shifted emission balloon,
which is a mouthful,
so we call it FIREBall,
and don't worry, it is not going
to explode at the of this story.
I've been working on FIREBall
for more than 10 years,
and now lead the team
of incredible people who built it.
FIREBall is designed to observe
some of the faintest structures known,
huge clouds of hydrogen gas.
These clouds are giants.
They are even bigger than
whatever you are thinking of.
They are huge,
huge clouds of hydrogen that we think
flow into and out of galaxies.
I work on FIREBall
because what I really want
is to take our view of the universe
from one with just light from stars
to one where we can see and measure
every atom that exists.
That's all that I want to do.
(Laughter)
But observing at least some of those atoms
is crucial to our understanding
of why galaxies look the way they do.
I want to know
how that hydrogen gas
gets into a galaxy and creates a star.
My work on FIREBall started in 2008
working not on the telescope
but on the light sensor,
which is the heart of any telescope.
This new sensor was being developed
by a team that I joined
at NASA's Jet Propulsion Laboratory,
and our goal was to prove
that this sensor would work really well
to detect that hydrogen gas.
In my work on this,
I destroyed several very,
very, very expensive sensors
before realizing that
the machine I was using
created a plasma that shorted out
anything electrical that we put in it.
We used a different machine,
there were other challenges,
and it took years to get it right,
but when that first sensor worked,
it was glorious,
and our sensors are now 10 times better
than the previous state-of-the-art
and are getting put into
all kinds of new telescopes.
Our sensors will give us a new way
to see the universe and our place in it.
So, sensors done,
time to build a telescope,
and FIREBall is weird
as far as telescopes go
because it's not in space
and it's not on the ground.
Instead, it hangs on a cable
from a giant balloon
and observes for one night only
from 130,000 feet in the stratosphere
at the very edge of space.
This is partly because the edge of space
is much cheaper than actual space.
(Laughter)
So building it, of course, more failures:
mirrors that failed,
scratched mirrors that had to be remade;
cooling system failures,
an entire system that had to be remade;
calibration failures, we ran tests
again and again and again and again;
failures when you literally
least expect them,
we had an adorable but super-angry
baby falcon that landed
on our spectrograph tank one day
(Laughter)
although to be fair,
this was the greatest day
in the history of this project.
(Laughter)
I really loved that falcon.
But falcon damage fixed, we got it built
for an August 2017 launch attempt,
and then failed to launch
due to six weeks of continuous rain
in the New Mexico desert.
(Laughter)
Our spirits dampened, we showed up again,
August 2018, Year 10,
and the morning of September 22nd,
we finally got the telescope launched.
(Applause)
I have put so much of myself,
my whole life into this project,
and I, like, still can't believe
that that happened.
And I have this picture that's taken
right around sunset on that day
of our balloon, FIREBall hanging from it,
and the nearly full moon,
and I love this picture.
God, I love it.
But I look at it,
and it makes me want to cry,
because when fully inflated,
these balloons are spherical,
and this one isn't,
it's shaped like a teardrop,
and that's because there is a hole in it.
Sometimes balloons fail too.
FIREBall crash-landed
in the New Mexico desert,
and we didn't get the data that we wanted,
and at the end of that day,
I thought to myself,
why am I doing this?
And I've thought a lot
about why since that day,
and I've realized that all of my work
has been full of things
that break and fail,
that we don't understand and they fail,
that we just get wrong the first time,
and so they fail.
I think about the thousands
of people who built Hubble
and how many failures they endured.
There were countless failures,
heart-breaking failures,
even when it was in space,
and none of those failures
were a reason for them to give up.
I think about why I love my job.
I want to know what
is happening in the universe.
You all want to know
what's happening in the universe too.
I want to know what's going on
with that hydrogen.
And so I've realized that discovery
is mostly a process
of finding things that don't work,
and failure is inevitable when
you're pushing the limits of knowledge,
and that's what I want to do.
So I'm choosing to keep going,
and our team is going to do
what everyone who has ever
built anything before us has done.
We're going to try again in 2020.
And it might feel like a failure today,
and it really does,
but it's going to stay a failure
if I give up.
Thank you very much.
(Applause)