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Miles Hatfield: Hello everyone and Happy Halloween. Today, for our Halloween special,

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A NASA scientist finally goes on record about the truth behind sprites, gnomes, pixies, ELVEs, trolls, and more.

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Of course, we're not talking about the mythical creatures of the forest...

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We're talking about the colorful lights that sometimes appear high in our upper atmosphere above thunderstorms --

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more commonly known in scientific parlance as transient luminous events.

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I'm Miles Hatfield, NASA science communicator,

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and I'm here with Burcu Kosar, NASA scientist and expert on these mysterious

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electrical phenomena. Burcu is starting a brand new project called Spritacular that aims to open

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up this exciting field of science to broad public participation. We're here to talk about that

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project, and the ghostly figures that it studies.
So first off, what are sprites and some of these

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other things that I mentioned at the top?

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Dr. Burcu Kosar: Yeah, um, so sprites, also known
as red sprites, due to their dominant red color

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are upper atmospheric electrical discharges of air that are connected to thunderstorm systems below.

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So what I mean by that is every sprite event in a way has a parent lightning flash. So they're

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tightly connected in a way, they happen at about
50 miles up in our atmosphere. And they have

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complex morphological features. What I mean by
that is, they come in various shapes and sizes,

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some of them look like a carrot bunch just pulled
out of the ground. Some of them look like columns,

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some of them look like angels, and the most fascinating one is actually called "dancing

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sprites," they almost flicker like a little light
show about the thunderstorm systems. And And also,

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we do not really currently understand how they
take the shape they do or why they take the shape

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they do. It is a very least understood field of
research.

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Miles Hatfield: How big are we talking? How rare
are they? How hot or cold? Are they keeping up

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more sense of what sprites are like? So

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Dr. Burcu Kosar: what I would say is they are not
like the hot lightning bolts, they are relatively

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cold. They actually their home is the coldest
layer of the atmosphere, which is the upper

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sections of the mesosphere, so they are, they're
formed by these filamentary plasma channels called

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"streamers," they are weakly ionized channels, so
they're cooler in comparison to the lightning bolt

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itself. They are, they're relatively rare to be
able to make them happen, we need very powerful,

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positive cloud-to-ground lightning flashes. So what are these positive cloud to ground lightning

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flashes? They are very powerful flashes, they they
transfer the positive charge from the cloud to the

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ground, and they are responsible for generation of
sprites.

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Miles Hatfield: So why have I not heard of sprites
before? Are they very rare? Why? Why don't most

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people know about these?

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Dr. Burcu Kosar: So I would say it's a relatively
new field of research. This field of research

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started in 1990s, when a group of scientists were
testing a low light level TV camera for an

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upcoming rocket mission. And there must have been a
thunderstorm relatively nearby. And they captured

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sprites on the record for the first time. When
they reviewed their footage, they saw these two

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massive luminous blobs extending above the active thunderstorm systems. And that is

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actually the first milestone image that kickstarted this field of research in atmospheric and

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space electricity. After that, there has been many
campaigns started to catch them and study them.

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There were ground-based campaigns, there were aircraft campaigns, the reason an aircraft's

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altitude is very, very good to study or look at
these phenomena is the vantage point. When you're

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flying around the nearby thunderstorms, you have
this great view of the top of the thunderstorms,

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which is home for these phenomena that we refer to as "transient luminous events." So another important

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thing to mention here is this field of research is
actually no stranger to citizen science. Because

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when you look at some of the historical anecdotes,
people have been describing sightings of these

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strange flashes of light above the
thunderstorm, almost going back to hundreds of

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years, even pilots were seeing them but what they
see is actually just a flicker of light, they do

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not see these phenomenal detail images that are
shared on the on the internet. So that is a still capture

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capture ripped off of video footage. So
they're very, very fast. So to the human eye,

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they're almost like a flicker of liight, like a
flash of light. And it is very hard to perceive

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color. So people when they look at the aurora,
they see these green arcs moving in the sky. For

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sprites, unfortunately, that is not possible
because they are very brief. And very fast. They

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are they're visually beautiful in the still
photographs.

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Miles Hatfield: So it sounds like you've seen some
sprites in person before. Can you tell me what

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that was like?

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Dr. Burcu Kosar: So I wouldn't say I have seen it.
I have captured it on camera about a year ago, I

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have been studying sprites for about 15 years now.
I did my research work during my PhD. And like I

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said, it was it was an opportunity. We recorded a
sprite-chasing documentary down in Oklahoma, I had

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the opportunity to work with one of the phenomenal
sprite-chasers Paul Smith. And we went and we

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chased bunch of storms that was over, over a
nearby state. And we were lucky enough to capture

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a sprite on camera and it was actually column
sprites. It was it was a great experience, I would

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say because that kind of in a way made me realize
how knowledgeable citizen scientists are. And the

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amount of information that we can exchange and
collaborate and advance this field of research

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was really, really great. And, and that's why I'm
thinking this project of mine that is going to be

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launching this month is definitely a very
worthwhile effort. And I'm so excited about it.

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Miles Hatfield: Good. Tell, tell me more about
what Spritacular is. You mentioned citizen

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science. But what does that mean? And how can your
average person get involved in something like

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this?

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Dr. Burcu Kosar: Yeah, so Spritacular is NASA's brand new citizen science project. So citizen science

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projects are in a way, a collaboration between
professional scientists and members of the public.

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So it is almost like an exchange of information.
So as a scientist, I look at a lot of scientific

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data, I study the physics of this phenomenon. And
scientists are very knowledgeable about these. And

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we look at satellite data. But when you look at
the public and sprite chasers, they are phenomenal

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photographers. And not only that, they're very
knowledgeable about what they're doing. They're

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almost I would, it would be wrong to call them
amateurs, they're extremely talented. So they

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capture these phenomena. And they want to learn
more about what they're capturing and what these

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things are. So that's where this project will come
in. We want to create a bridge between these two

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communities, and enable exchange of information
for the advancement of science collaboratively

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together. So the way people can participate in
this project is, I would say if you live in a

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place where thunderstorms frequently happen, and
if you happen to own a DSLR camera. And if you're

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a little bit patient, and if you like to go
outside at night and watch the night sky, this is

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actually an excellent project for you. I would say
the hardest part of catching a sprite is knowing

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where to look. But there will be wealth of
information on our website, spritacular.org,

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where you can come and learn about these
phenomena. And if you happen to observe sprites or

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any other TLEs, you can submit your observations
to our database which will be used by the

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scientific community for research in the future.
So if you -- long story short -- if you are passionate

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about thunderstorms, if you have some patience and
an off-the-shelf DSLR camera, you're off to a great

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start to capture these events.

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Miles Hatfield: This raises a good question. I
mean, probably most people who know about NASA,

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know that we've got all kinds of satellites, we've
got all kinds of equipment that we use to make

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observations of the night sky. What makes a person
with a camera on the ground so useful for these

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sorts of questions that you're asking?

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Dr. Burcu Kosar: So, yeah, so because these events
occur in a specific region of the atmosphere as I

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mentioned earlier, the best vantage point to
observe them are from aircrafts or locations where

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storms happen frequently from the orbit satellites
see them but it's very hard to resolve the details

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of these phenomena. The ground observations give
us an excellent vantage point to see the details

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and also, they serve as ground truth for
satellite observations, if you look at the

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satellite data to understand what we captured, and
if we have a confirmation from the ground, that is

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an excellent source of data point, I would say,
and with this project, we are going to be creating

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the first ever crowdsourced database of TLEs, which
currently doesn't exist. So it is a very exciting

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endeavor, it will be open to every scientific
community. And we intend to make this a global

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project because where powerful thunderstorms
happen, you'll have a chance to see sprites and

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other TLEs.

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Miles Hatfield: So tell me more. What about these
other TLEs? Obviously, your your project is

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called Spritacular, as I understand sprites are the most common TLE that people are likely to see,

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but there's a range of others. Can you say more
about what they are?

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Dr. Burcu Kosar: Yeah, of course. So the "transient luminous
events" is the technical name the science community

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gave to refer to these optical emissions above the
thunderstorms. So this region is almost literally

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like an electrical zoo, we have all sorts of
different phenomena. Sprites are one of the like

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you mentioned one of the most commonly observed
types, but we have halos, we have ELVEs, halos are

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almost like a diffuse glow, like in the shape of a
pancake. ELVEs are in the shape of a doughnut that

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extends radially outward. And we have jets and gigantic jets which shoot up from the

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thunderstorm tops, gigantic jets are so massive,
they literally create an electrical bridge between

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the thunderstorm tops and the ionosphere,
effectively coupling two different regions of the

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atmosphere. So these are some other types of TLEs
that we are interested in, including in our

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database for scientific research.

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Miles Hatfield: Where do they get these funny
names from?

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Dr. Burcu Kosar: Yeah, that's a good question. So
the first discovered TLE was sprites, and because

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of their elusive fleeting nature, they were dubbed
as sprites by late Dave Sentman. And after that,

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it kind of got stuck. And when the field of
research got kicked off with this first

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observation, we started discovering more types.
And I think the overall theme sort of got stuck.

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Some of these names are actually acronyms, but I
think scientific field has been a little bit

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playful with naming these optical phenomena.

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Miles Hatfield: So aside from making bright light
shows, and quick, you know, momentary flashes, to

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these TLEs have any effect on people on our Earth
system as a whole? Are they dangerous in any way?

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Dr. Burcu Kosar: Yeah, that is a good question. So
they happen as I mentioned earlier, at about 50

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miles up in our atmosphere, so they do not
endanger us here on Earth. But of course, they

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have effect on other Earth systems, such as the
global electric circuit. So "global electric

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circuit" is the name that we give collectively to circulating currents in our atmosphere. So sprites

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and other TLEs being electrical phenomena, they do
carry currents. So they provide in a way, feedback

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into this global electric circuit. I would say a
thunderstorm and lightning flash or sprite or any

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other TLE is not an isolated event, it actually
feeds back into this larger system that we call

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global electric circuit. And another another thing
to mention here, sprites locally affect the

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atmosphere electrically and chemically and modify
its contents. So what this does is this affects

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our long-range radio communication systems, and
also the atmospheric chemistry changes that they

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do locally in the atmosphere. It feeds back into
the atmospheric chemistry. So they do have

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global effects that we would like to study and
understand further.

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Miles Hatfield: This stuff is fascinating. Thank
you so much for joining me for this discussion.

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Burcu. Thank you, everyone. And before you all head out for trick or treating, there's much more

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to learn about transient luminous events. Burcu will be sticking around and answering your

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questions today, so leave them in the comments
below.

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Thank you all for joining us and Happy Halloween!