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In 2012,
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a team of Japanese and Danish researchers
set a world record,
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transmitting 1 petabit of data—
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that’s 10,000 hours of high-def video—
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over a fifty-kilometer cable, in a second.
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This wasn’t just any cable.
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It was a souped-up version
of fiber optics—
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the hidden network that links our planet
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and makes the internet possible.
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For decades,
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long-distance communications
between cities and countries
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were carried by electrical signals,
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in wires made of copper.
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This was slow and inefficient,
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with metal wires limiting data rates
and power lost as wasted heat.
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But in the late 20th century,
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engineers mastered a far superior method
of transmission.
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Instead of metal,
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glass can be carefully melted and
drawn into flexible fiber strands,
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hundreds of kilometers long
and no thicker than human hair.
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And instead of electricity,
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these strands carry pulses of light,
representing digital data.
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But how does light travel within glass,
rather than just pass through it?
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The trick lies in a phenomenon known
as total internal reflection.
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Since Isaac Newton’s time,
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lensmakers and scientists have
known that light bends
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when it passes between air and
materials like water or glass.
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When a ray of light inside glass hits its
surface at a steep angle,
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it refracts, or bends
as it exits into air.
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But if the ray travels at a shallow angle,
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it’ll bend so far that it stays trapped,
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bouncing along inside the glass.
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Under the right condition,
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something normally transparent to light
can instead hide it from the world.
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Compared to electricity or radio,
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fiber optic signals barely degrade
over great distances—
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a little power does scatter away,
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and fibers can’t bend too sharply,
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otherwise the light leaks out.
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Today, a single optical fiber carries many
wavelengths of light,
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each a different channel of data.
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And a fiber optic cable contains hundreds
of these fiber strands.
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Over a million kilometers of cable
crisscross our ocean floors
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to link the continents—
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that’s enough to wind around the
Equator nearly thirty times.
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With fiber optics,
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distance hardly limits data,
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which has allowed the internet to evolve
into a planetary computer.
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Increasingly,
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our mobile work and play rely on legions
of overworked computer servers,
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warehoused in gigantic data centers
flung across the world.
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This is called cloud computing,
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and it leads to two big problems:
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heat waste and bandwidth demand.
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The vast majority of internet traffic
shuttles around inside data centers,
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where thousands of servers are connected
by traditional electrical cables.
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Half of their running power
is wasted as heat.
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Meanwhile, wireless bandwidth demand
steadily marches on,
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and the gigahertz signals used in our
mobile devices
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are reaching their data delivery limits.
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It seems fiber optics has been too good
for its own good,
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fueling overly-ambitious cloud and mobile
computing expectations.
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But a related technology, integrated
photonics, has come to the rescue.
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Light can be guided not
only in optical fibers,
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but also in ultrathin silicon wires.
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Silicon wires don’t guide light
as well as fiber.
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But they do enable engineers to shrink
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all the devices in a hundred kilometer
fiber optic network
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down to tiny photonic chips that plug
into servers
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and convert their electrical signals
to optical and back.
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These electricity-to-light chips allow for
wasteful electrical cables in data centers
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to be swapped out for
power-efficient fiber.
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Photonic chips can help break open
wireless bandwidth limitations, too.
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Researchers are working to replace mobile
gigahertz signals
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with terahertz frequencies,
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to carry data thousands of times faster.
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But these are short-range signals:
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they get absorbed by moisture in the air,
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or blocked by tall buildings.
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With tiny wireless-to-fiber photonic
transmitter chips
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distributed throughout cities,
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terahertz signals can be relayed over
long-range distances.
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They can do so via a stable middleman,
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optical fiber, and make hyperfast
wireless connectivity a reality.
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For all of human history,
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light has gifted us with sight and heat,
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serving as a steady companion while we
explored and settled the physical world.
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Now, we’ve saddled light with information
and redirected it
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to run along a fiber optic superhighway—
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with many different integrated
photonic exits—
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to build an even more expansive,
virtual world.
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