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David Biello: So Victor,
what have you been up to?
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Victor Vescovo: That's the bottom
of the Atlantic Ocean,
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and I guess I read too much
Jules Verne as a young boy,
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and so for the last four years
I've led a team to design and build
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what is now the most advanced and deepest
diving submersible on the planet,
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and I have the ability
to personally pilot it too.
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So this was us in December of last year,
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for the first time --
the bottom of the Atlantic Ocean.
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DB: And nobody's seen that before right?
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That's just you.
VV: No.
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Well, now everybody else.
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DB: Who does that?
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Like --
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VV: Well, I think everyone has seen
the developments in the last 10, 15 years.
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You have a bunch of people that have
the means to explore outer space,
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like SpaceX or Blue Origin --
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those guys --
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and we're going the other direction.
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So it's a wonderful era
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of private individuals
spending their resources
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to develop technologies
that can take us to places
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that have never been explored before,
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and the oceans of the world is --
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it's almost a cliché to say
it's 70 percent of our entire planet,
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and of that, 95 percent is unexplored.
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So what we're trying to do
with our expedition
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is to build and prove out a submersible
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that can go to any point
on the bottom of the planet
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to explore the 60 percent of this planet
that is still unexplored.
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DB: You need a pretty cool tool
to do that, right?
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VV: Right.
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Now the tool is the submarine,
the Limiting Factor.
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It's a state-of-the-art vessel
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supported by the support ship,
the Pressure Drop.
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It has a two-person titanium sphere,
90 millimeters-thick,
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that keeps it at one atmosphere,
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and it has the ability to dive repeatedly
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down to the very deepest
point of the ocean.
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DB: So like the SpaceX
of ocean exploration?
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VV: Yeah, it's kind of the SpaceX
of ocean exploration,
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but I pilot my own vehicles.
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(Laughter)
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DB: Are you going to take Elon or...?
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VV: Yeah, I could take someone down there.
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So, Elon, if you're listening,
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I'll give you a ride in mine
if you give me a ride in yours.
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(Laughter)
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DB: So tell us what it's like down there.
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I mean, we're talking about a place
where the pressure is so intense
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that it's like putting
an Eiffel Tower on your toe.
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VV: It's more than that.
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It's about 16,000 psi.
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So the issue is that we have
this titanium sphere
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that allows us to go down
to these extreme depths
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and come up repeatedly.
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That's never been done before.
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The Challenger Deep has been dived twice,
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once in 1960 and once in 2012
by James Cameron,
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and they went down and came back up
and those were experimental craft.
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This is the first commercially
certified submersible
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that can go up and down
thousands of times with two people,
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including a scientist.
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We're very proud that we took down
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the deepest-diving
British citizen in history
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just three weeks ago,
Dr. Alan Jamieson of Newcastle University
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who was down with us on the Java Trench.
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DB: So, not too much freaks you out,
is what I'm guessing.
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VV: Well, it's a lot
different to go diving.
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If you're claustrophobic,
you do not want to be in the submarine.
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We go down quite a distance
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and the missions typically last
eight to nine hours in a confined space.
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It's very different
from the career I had previously
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which was mountain climbing
where you're in open spaces,
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the wind is whipping, it's very cold.
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This is the opposite.
It's much more technical.
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It's much more about precision
in using the instruments
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and troubleshooting
anything that can go wrong.
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But if something really
goes wrong in the submersible,
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you're not going to know it.
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(Laughter)
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DB: So you're afraid of leaks
is what you're saying.
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VV: Leaks are not good,
but if it's a leak that's happening,
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it's not that bad
because if it was really bad
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you wouldn't know it, again, but --
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you know, fire in the capsule,
that wouldn't be good either,
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but it's actually a very safe submersible.
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I like to say I don't trust
a lot of things in life,
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but I do trust titanium, I trust math
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and I trust finite element analysis,
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which is how you figure out
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whether or not
things like this can survive
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these extraordinary
pressures and conditions.
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DB: And that sphere
is so perfectly machined, right?
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This is a truly unique craft.
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VV: That was the real trick --
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is actually building a titanium sphere
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that was accurate
to within .1 percent of machine.
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Titanium is a hard metal to work
-
and a lot of people
haven't figured it out,
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but we were very fortunate.
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Our extraordinary team was able
to make an almost perfect sphere,
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which when you're subjecting
something to pressure,
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that's the strongest
geometry you can have.
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When I'm in the submersible
and that hatch closes,
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I'm confident that I'm going
to go down and come back up.
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DB: And that's the thing
you double-check --
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that the hatch is closed?
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VV: There are only two rules
in diving a submarine.
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Number one is close the hatch securely.
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Number two is go back to rule number one.
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DB: Alright so, Atlantic Ocean: check.
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Southern Ocean: check.
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VV: No one has ever dived
the Southern Ocean before.
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I know why.
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It's really, really hostile.
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The weather is awful.
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The word collision comes to mind.
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But we did that one, yes.
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Glad that's over --
DB: Yeah --
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VV: Thank you.
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(Applause)
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DB: It's like you're racing through it.
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And now the Indian Ocean,
as Kelly mentioned.
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VV: Yeah, that was three weeks ago.
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We were fortunate enough
to actually solve the mystery.
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If someone had asked me three weeks ago,
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"What is the deepest point
in the Indian Ocean?" --
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no one really knew.
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There were two candidates,
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one off of Western Australia
and one in the Java Trench.
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We have this wonderful ship
with a brilliant sonar.
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We mapped both of them.
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We sent landers down
to the bottom and verified.
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It's actually in the center portion
of the Java Trench,
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which is where no one thought it was.
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In fact, every time we've completed
one of our major dives,
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we have to run off
to Wikipedia and change it
-
because it's completely wrong.
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(Laughter)
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DB: So it probably takes longer
to get down there
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than the time you're able
to spend down there?
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VV: No, we actually spend
quite a bit of time.
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I have four days
of oxygen supply in the vessel.
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If I'm down there for four days,
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something's gone so wrong
I'm probably not going to use it,
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but it's about three hours down
to the deepest part of the ocean
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and then we can spend
usually three or four hours
-
and then another three hours up.
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So you don't want to stay in there
for more than 10 or 11 hours.
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It can get a little tight.
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DB: Alright, so the bottom
of the Indian Ocean.
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And this is something that no one
besides you has ever seen before --
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VV: This is actually imagery
from one of our robotic landers.
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On the bottom right you can
actually see a robust assfish --
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that's what it's actually called.
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(Laughter)
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But you can see from the left
a creature that's never been seen before.
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It's actually a bottom-dwelling jellyfish
called a stalked ascidian,
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and none of them
have ever looked like this before.
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It actually has a small child
at the bottom of its stalk,
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and it just drifted across beautifully.
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So every single dive we have gone on,
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even though we're only down there
for a couple of hours,
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we have found three or four new species
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because these are places that have
been isolated for billions of years
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and no human being has ever
been down there to film them
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or take samples.
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And so this is extraordinary for us --
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(Applause)
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So what we are hoping --
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the main objective of our mission
is to build this tool.
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This tool is a door,
-
because with this tool,
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we'll be able to make
more of them potentially
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and take scientists down
to do thousands of dives,
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to open that door to exploration
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and find things that we
had no idea even existed.
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DB: And so more people have been
to space than the bottom of the ocean.
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You're one of three.
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You're going to up that number,
you're going to give it away.
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VV: Yeah, three people have dived
to the bottom of the Pacific Ocean.
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The USS Trieste in 1960
with two individuals,
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James Cameron in 2012
with his Deep Sea Challenger --
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thank you, Jim, great sub.
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This is a third-generation technology.
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We're not only going to try and go down,
actually in two weeks,
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but we're going to try
and do it multiple times,
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which has never been done before.
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If we can do that,
we'll have proven the technology
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and that door will not just go open,
it will stay open.
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(Applause)
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DB: Fantastic. Good luck.
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VV: Thank you very much.
DB: Thank you.
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VV: Thank you all.
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(Applause)
closed TED
