How scientists are creating real-life invisibility cloaks - Max G. Levy
278,075 views ・ 2024-12-05
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A spy presses a button on their suit
and blinks out of sight.
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A wizard wraps himself in a cloak
and disappears limb by limb.
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A star pilot flicks a switch
and their ship vanishes into space.
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Invisibility is one of the most
tantalizing powers in fiction,
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spanning all kinds of stories.
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But could this fantasy
ever become a reality?
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Well, invisibility is a relative term.
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Researchers and engineers working
in stealth technology
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have developed planes
nearly undetectable to radar,
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and cloaks that conceal tanks
from thermal cameras.
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But these innovations don't make things
invisible to the human eye.
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Our eyes see by taking in the visible
light waves that reflect off objects.
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So to make an object invisible without
turning off the lights,
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our eyes would need to see the light
from behind that object,
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rather than the light bouncing
off the object itself.
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And to do that, we need to be able
to control these visible light waves.
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One way to do this is through reflection.
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This method is predictable,
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but it requires maintaining angles
too precise for most moving targets.
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Researchers can also absorb light
with ultra-black surfaces
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covered in light-capturing nanotubes,
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but painting something black
doesn’t exactly make it invisible.
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So instead, many researchers are trying
to reroute wavelengths around an object
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using refraction.
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Refraction describes how light
changes direction
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when it passes between materials
of differing density.
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When light passes from a less dense
medium into a denser one,
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its path gets slightly bent.
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Consider how someone’s legs look
when you sit at the edge of a pool.
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Since water is denser than air,
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the light waves reflecting from the water
to your eyes speed up and bend.
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In nature, this effect has limits.
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Even when passing
through natural materials
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with the highest refractive indexes,
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light can only bend so far.
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But in the lab,
we can shatter those limits.
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In the 1990s, theoretical physicist
John Pendry
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was working with a defense lab to create
a way to absorb radar signals.
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The result was a mesh of carbon fibers
so thin and densely woven
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that they interacted with light
in an entirely different way
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from regular carbon.
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This inspired Pendry to try similar tricks
with other materials.
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By altering them at the microscopic level,
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Pendry could add tiny microstructures
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capable of capturing and bending light
in ways previously thought impossible.
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He called this technology metamaterials
and developed his most famous example:
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a split ring resonator—
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a metamaterial structure which allowed him
to bend light past the theorized limit.
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The discovery of negative refraction
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kicked off the modern wave
of invisibility research.
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To date, labs have designed metamaterials
that can completely steer away microwaves.
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But a true invisibility cloak would need
to bend all wavelengths of visible light
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simultaneously and without distortion,
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and refraction doesn’t treat
all wavelengths equally.
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Consider how refractive materials produce
rainbows with varying colors.
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Despite leading the field, metamaterials
aren't the only route toward invisibility.
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One lab was able to create a controlled
desert mirage using hot air
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just above the ground to refract light
from the cooler air around it
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to create distortions and illusions.
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Unfortunately, this model only operates
at thousands of degrees.
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Another lab created a unique configuration
of glass lenses
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which can bend the light around an object
within a ring-shaped area
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in the lens.
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This lens could be made large
enough to obscure an entire person,
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but its effect only works when both
the observer and the obscured
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stand in the exact right positions.
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And attempts using cameras to record
environments and project them over a cloak
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have been hindered by lag
and color distortion.
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These efforts, and many more,
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still have a ways to go towards bringing
this magical technology to life.
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But if one thing is true about science,
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it’s that the limitations we see today
could simply disappear.
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