I recently read an article about a superconducting supercollider that might be built in Texas.

我最近看到一篇文章讲的德可能会建造的超超大型加速器。

We bring a certain amount of technology, know-how, to their machine because we started with a superconducting machine.

“我们给他们的机器带去了一定的技术, 知识, 因为我们开创了超机器的先河。

Fermilab, is the home of the Tevatron accelerator, once the largest superconducting supercollider in the world.

费米实验室最为著名的就Tevatron加速器, 它曾经世界上最大的超超级对撞机。

The main component of the composition was the solenoid of the superconducting magnet they were still installing.

组成的主要部件他们仍在安装的超磁体的螺线。

That includes products used to make airplanes and superconductors.

这包括用于制造飞机和超体的产品。

Everything could change with a new class of high-temperature superconductors.

一切都可能随着新型高温超体的出现而改变。

Dr Subramanian and his team have got close. The tin approach has resulted in some promising flame-bright superconducting oranges.

Subramanian博士而他的小组已经接近成功。锡方法已经产生了一些有希望的鲜如火焰的超橘色。

But new reactors being built today will have better magnets made of new superconducting materials.

但今天建造的新反应堆将有更好的磁铁， 由新的超制成。

To benefit from that technology, we'd need to discover new superconducting materials that operate at room temperature.

为了从这项技术中获益，我们需要发现可在室温下工作的新型超。

Second, there's the possibility of using the carbon in the atmosphere to generate electricity via graphene-powered superconductors or synthetic photosynthesis.

其次，有可能利用大气中的碳通过石墨烯驱动的超体或合成光合作用来发电。

Magicians coat an object in a layer of magnetic paint and place it on top of a superconductor cooled by liquid nitrogen.

魔术师给某个物体涂上一层磁性涂，然后把物体放在用液氮冷却的超体上。

But let me just try to break it down simply: We shoot big batches of muons into a large 14-meter-diameter superconducting magnet.

但让我试着简单地分解一下：我们将大量 μ 子发射到一个 14 米直径的大型超磁体中。

And 1 tesla is a very strong magnetic field – the fields from some of the strongest superconducting magnets in the world are only 10 teslas.

1 特斯拉一个非常强的磁场——世界上一些最强的超磁体的磁场只有 10 特斯拉。

Because studying shifts from three to two dimensions could help make better superconductors and better superconductors could mean more efficient magnetic trains, lower electricity bills and faster computers.

因为研究从三维向二维的转换有助于制造更好的超体，更好的超体意味着更高效的磁悬浮列车，更节约的电能和更快的电脑。

By the time it’s ready to go online in 2025, it’ll have more than ten million parts...including 80,000 kilometers of superconducting filaments, to power its immense magnets.

到 2025 年准备上线时， 它将拥有超过 1000 万个零件… … 包括 80, 000 公里的超灯丝， 为其巨大的磁铁提供动力。

All the other superconductors we’ve discovered only work at very low temperatures, but one that works at room temperature would revolutionize the power industry by making it way more efficient to transfer electricity.

我们发现的所有其他超体只能在非常低的温度下工作，但在室温下工作的超体将通过提高电力传输效率来彻底改变电力行业。