Name: 這些超材料超越了自然界的特性 (These Metamaterials Go Beyond the Properties of Nature)
Uploaded: 2021-01-14T10:41:12.000Z
Duration: 4 min 14 s
Description: 【看影片學英語】數萬部 YouTube 影片，搭配英漢字典即點即查，輕鬆掌握單字發音與用法，長久累積看電影不必再看字幕。

Materials that can interact with electromagnetic radiation based on their structure?

But we're talking about metamaterials today!

Actually we've talked about them before, and me talking about us talking about them

But I just figured that since it's been over four years, three sets, and one channel

name change ago, we might look at them again and see where the field of metamaterials is

First off we should get a pretty firm grip on what exactly metamaterials are.

Conventional materials interact with electromagnetic radiation like light or radio waves based

We're used to how glass bends light or how gold reflects light and so on, and in our

everyday encounters with these objects we know what to expect because there's nothing

Unless some crazed engineer replaced them with metamaterials, then things can get pretty

You're used to seeing it all shiny and yellowish and even on the nanoscale that's still true

Unless an engineer were to alter the surface of the gold, making nanoscale structures that

Then the gold could be green or red instead of the usual yellowish tint.

Nothing about the gold's chemical properties have changed, it's still good old Au, atomic

But the structures on its surface can change how we see it.

These special structures take gold from a conventional material to a metamaterial.

You might be more familiar with the concept than you realize.

One Stanford engineer likens metamaterials to TV antennae of old.

To adjust the image quality you would wiggle the antennae around until the geometry interacted

But the waves carrying TV broadcasts back in the day were centimeters to meters long,

so the antennas that interacted with them were relatively big.

If you want your material to interact with electromagnetic waves that are microns to

nanometers, then the shapes are going to have to be just a fraction of those wavelengths.

You can start getting pretty creative with these nanoscale shapes.

You could make lenses that don't rely on the material properties of precisely shaped

glass to bend light, and instead use metamaterials whose geometry focuses the light the same

way, but without the difficulty of shaping a lense, or the weight of bulky glass.

With metamaterials I could have glasses lenses that are 100 times thinner than a strand of

hair, but still do the same job as these old coke-bottle bottoms of mine.

Or you could start mixing materials up to make different structures, or mixing structures

up to control electromagnetic waves in any arbitrarily complex way you want.

Obviously this has huge implications for a lot of fields that deal with electromagnetic

For example there are machines called synchrotrons which use magnets to whip electrons around

and around in a circle until they give off X-rays that are then used for various experiments.

Synchrotrons are usually the size of buildings, but using 10 million precisely etched shapes

in lithium tantalate crystal, researchers were able to coax infrared light in a circle,

causing positive and negative charges in the crystal that gave off terahertz radiation,

waves that are between infrared and microwaves.

The crystal was just half a square millimeter in size, but it was mimicking what you normally

Magnetic fields can be manipulated with metamaterials too, and researchers at the university of

sussex just demonstrated a way to make one magnet connect to another without the other

A magnetic diode.This could make wireless power transfer like cell phone charging much

more efficient because power would only flow one way.

And of course light bending materials open up the possibility of, wait for it… invisibility.

But explaining how that works is a whole video of it's own.

Just know that with metamaterials, the possibilities are really only limited by how small we can

make the structures and your imagination.

If you interested in strange and unique sciences, subscribe to Seeker and check out this video

on another way scientists are hacking nature.

And fun fact before you go, Meta materials are only possible thanks to the same technology

we use to make our nanoscale integrated circuits in today's electronics.