Placeholder Image

字幕表 動画を再生する

  • Electronics work by shuffling electrons through circuits and logic gates to perform calculations,

  • but in doing so they have to overcome resistance, which wastes energy and generates heat.

  • So instead of forcing electrons to push each other along, what if

  • we just made them do the wave?

  • Electrons have a negative charge; it's a fundamental part of what they are.

  • They also have a property called spin, and this spin can be oriented either up or down.

  • If the spins of the outermost electrons in an atom are aligned the same direction,

  • they'll generate a magnetic field, making the atom a tiny magnet.

  • If all the atoms in a material have their magnetic fields aligned the same way,

  • the material will act as a magnet.

  • (I could make the Insane Clown Posse joke, but I won't. I'm not going to do it.

  • It's 2018 and we're officially laying the magnets joke to rest.)

  • Anyway, it's possible to reverse the direction of the magnetic field of an atom in a material

  • by applying energy.

  • When that happens, the strength of the magnetic field in that area drops a bit;

  • it's effectively the same as a partial reversal of all the tiny magnets in that group.

  • This partial reversal spreads, like a crowd doing the wave at a stadium, passing the energy

  • that dampened the magnetic field along.

  • This wave of energy can also be thought of as a particle, called a magnon.

  • Just like electrons in a circuit, a magnon can be used to carry information, with some

  • advantages over moving electrons, like using less energy and generating less heat

  • (which is good, because sometimes I worry about what my laptop is doing to me

  • when it's atop my lap.)

  • But while the silicon circuits that conduct electrons are relatively easy to make,

  • the magnets that transport magnons are not.

  • One reason we're still using electronics instead of magnonics is because the media

  • that carry magnons well are notoriously hard to make and harder to combine with other materials.

  • Currently most magnonic researchers use a material called yttrium iron garnet -- or

  • YIG -- to carry the waves.

  • A film of high quality YIG has to be grown on a matching lattice structure like gadolinium

  • gallium garnet. Hard to say, harder to combine with other substrates, like silicon.

  • So researchers started exploring elsewhere, and came across a material first made in 1991.

  • This material, called vanadium tetracyanoethylene, was the first carbon based magnet that was

  • stable at room temperature.

  • Well so long as it wasn't exposed to oxygen, in which case it can burst into flame.

  • But aside from the surprise fire, it's great for studying magnonics, keeping the magnons

  • just as stable as YIG while they persisted for record-breaking times.

  • If researchers can make a practical material for magnons to travel through, then the next

  • step is making digital logic gates like the transistors in a chip.

  • Fortunately researchers don't have to figure out entirely new transistors that can respond

  • to magnons.

  • It's possible to convert a magnon into an electrical signal thanks to something called

  • the inverse spin Hall effect, and then it's just a matter of sending electrons through

  • the transistor like we've always done.

  • This means researchers could combine magnonics and electronics, bringing them one step closer

  • to smaller, faster, more efficient computers.

  • For now though researchers are exploring other materials that might work even better than

  • vanadium tetracyanoethylene.

  • Hopefully they find one that doesn't catch fire when you crack a window.

  • Dive deeper into the future of computing and watch this video here, where I explain how

  • using photons in computers instead of electrons could make light-speed computing possible.

  • Don't forget to subscribe for more science and tech videos every week, and thanks for

  • watching!

Electronics work by shuffling electrons through circuits and logic gates to perform calculations,

字幕と単語

ワンタップで英和辞典検索 単語をクリックすると、意味が表示されます

B2 中上級

マグノニクスはエレクトロニクスの絶滅に拍車をかける? (Could Magnonics Spark the Extinction of Electronics?)

  • 47 1
    h23881956 に公開 2021 年 01 月 14 日
動画の中の単語