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After years of searching, Clyde Tombaugh discovered tiny Pluto on February 18th, 1930,
Little did he realize this was just one icy object in a vast belt of material known as
the Kuiper Belt.
[Mike Brown describes the region of the Kuiper Belt: 12:30 - 12:57 "The Kuiper Belt... out
Mike Brown: The Kuiper Belt is a collection of bodies outside the orbit of Neptune that,
if nothing else had happened, if Neptune hadn't formed or if things had gone a little bit
better, maybe they could have gotten together themselves and formed the next planet out
beyond Neptune. But instead, in the history of the solar system, when Neptune formed it
led to these objects not being able to get together, so it's just this belt of material
out beyond Neptune.
After Tombaugh's discovery, other astronomers guessed that Pluto wasn't alone and there
would be more planets to discover in the outer Solar System.
But nothing turned up for decades.
Back in 1951, the Dutch astronomer Gerard Kuiper proposed that out beyond Neptune, material
was spaced too far apart to form into a single large planet. Instead, he predicted that there
would only be a small collection of icy objects.
Occasionally one of these objects would wander into the inner Solar System and become a comet.
The idea of this "Kuiper Belt" made sense to astronomers, and it helped explain why
there were no large planets further out in the Solar System.
It also conveniently wrapped up another mystery of the Solar System: where do comets come
from?
Astronomers assumed these objects were out there, but they had no evidence of anything
other than Pluto.
A few icy objects were found between the orbits of Saturn and Uranus, but nothing out past
Neptune.
After searching the region for five years, and using the latest in telescope technology,
astronomers David Jewitt and Jane Luu finally confirmed the existence of the Kuiper Belt
in 1992.
They found a tiny object, a fraction of the size of Pluto, and the techniques they used
unlocked an icy land rush.
Six months later, the next object was found. And many more came after that.
Fortunately for us, Kuiper was wrong, and the belt hadn't been cleared out billions
of years ago.
It's still a busy place. There have been more than a thousand objects discovered, and it's
theorized that there are as many as 100,000 objects larger than 100 km in diameter.
One part Kuiper was definitely right about is that these objects won't last forever.
[Mike Brown talks about how the KBOs are grinding each other down: 13:10 - 13:25 "And these
days... no Kuiper Belt left." ]
Mike Brown: We call it a belt, but it's a very wide belt. It's something like 45 degrees
in extent across the sky - this big swath of material that's just been churned and churned
by Neptune. And these days, instead of making a bigger and bigger body, they're just colliding
and slowly grinding down into dust. If we come back in another hundred million years,
there'll be no Kuiper Belt left.
Keeping Pluto company out in the Kuiper belt, are many other objects worthy of mention:
Quaoar, Makemake, Haumea, Orcus and Eris are all large icy bodies in the Belt.
Several of them even have moons of their own.
These are all tremendously far away, and yet, very much within reach.
NASA's New Horizons spacecraft will reach this region in 2015, and capture the first
ever close up pictures of a Kuiper Belt object, images of the surface of Pluto.
Even more exciting for ancient ice-rock enthusiasts, it looks like our Solar System isn't unique.
There have been icy debris belts - other Kuiper Belts - discovered around nine other star
systems.
There are narrow ones, like our own Solar System, and then wider belts extending much
further out.
Infrared surveys suggest that at many as 20% of star systems have one of their own.
Vast and unexplored, the Kuiper belt is the source of many comets, and contains ancient
ice that was formed at the beginning of the Solar System.
Let's hope New Horizons is just the beginning of future decades of research into this mysterious
region.