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Chinese Physicists Smash Distance Record For Teleportation

tomluter

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Chinese Researchers Quantum Teleport Photons Over 60 Miles - Forbes
Chinese Researchers Quantum Teleport Photons Over 60 Miles

Chinese Physicists Smash Distance Record For Teleportation  - Technology Review
Chinese Physicists Smash Distance Record For Teleportation

5/11/2012 @ 11:58AM |11,706 views

Chinese Researchers Quantum Teleport Photons Over 60 Miles

Since 1997, researchers have been able to quantum teleport photons with a major record being set by researchers at the University of Science and Technology of China in Shanghai. In 2010, that team successfully teleported a photon over 16km. Now that same team has released new findings, in which they claim to have teleported photons nearly 100km, or over 60 miles.

Now, quantum teleportation isn’t quite the same thing as the teleportation in Star Trek. When researchers teleport a photon, they aren’t teleporting the actual photon, but rather the information contained in it through quantum entanglement. In essence, the second photon at the end of the teleport becomes the first one – or at least, it becomes an identical qubit of information. So the information is exchanged without actually travelling through the intervening distance.

(If that sounds bizarre and frightening, you’re in good company. Albert Einstein understatedly called the process of quantum entanglement “spooky action at a distance.”)

The challenge for quantum teleportation is that it has to be done in free space. Fiberoptics don’t work, because once you get to distances over about 1 kilometer, the fiber absorbs so much light that the information is lost. But while a fiberoptic cable can keep photons focused, moving over free space means using lasers – which inevitably causes the beam of light to spread out over time. However, using a powerful laser along with some other optical equipment, the researchers here developed a technique to keep the beam focused over the course of 97km, and successfully achieved quantum teleportation.

The ability to teleport information means that it could be possible to have worldwide communications that are impossible to listen in on. Because in quantum teleportation, the information doesn’t travel over any intervening distances, there’s no way to tap into the communication. As Technology Review notes, “these guys clearly have their eye on the possibility of satellite-based quantum cryptography which would provide ultra secure communications around the world.”

That technology is still a long way off, however. Despite the fact that the communication developed here is very efficient, it’s also very slow. They’ll also have to keep improving the distance. 60 miles for teleportation is a new record. It’s impressive. But communications satellites are typically in geosynchronous orbit – 22,236 miles up in the air.

Still, while there’s still a long way to go before we have true quantum-teleportation powered communications, this is a huge step in that direction.
 
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In case anyone missed it, I just want to highlight the military use of encrypted communication from this latest Chinese scientific advance.

From the article:

"The ability to teleport information means that it could be possible to have worldwide communications that are impossible to listen in on. Because in quantum teleportation, the information doesn’t travel over any intervening distances, there’s no way to tap into the communication. As Technology Review notes, 'these guys clearly have their eye on the possibility of satellite-based quantum cryptography which would provide ultra secure communications around the world.'”
 
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In case anyone missed it, I just want to highlight the military use of encrypted communication from this latest Chinese scientific advance.

From the article:

"The ability to teleport information means that it could be possible to have worldwide communications that are impossible to listen in on. Because in quantum teleportation, the information doesn’t travel over any intervening distances, there’s no way to tap into the communication. As Technology Review notes, 'these guys clearly have their eye on the possibility of satellite-based quantum cryptography which would provide ultra secure communications around the world.'”

I will like to disagree here....
Let me briefly explain you how it works first ( I am just a low level student of physics)
In this transportation we already have two photons in each location ... what we need to do is just match their Quantum States like spin , orientation etc which is by no mean an easy process because quantum physics confers fundamental restriction on accuracy of measurement. You can not measure quantum state of a particle even in theory.
But by indirect way scientist measure some properties of one photon and apply same to other and when both are in same quantum states that means they are same because two photon or electron in same quantum states are same you can exchange one for another.
But the problem is that you have to communicate your measurement of first particle by some means of slower than light communication and this is where it can be catched.
By the way congratulations to these physicists.
 
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USTC is not in Shanghai. It is in Hefei, capital of Anhui which is one of the poorest provinces in China.

If the poorest province has such a center of excellence, imagine...

It also has our most advanced facility for the R&D of the laser technology, and more recently the quantum network technology. :coffee:
 
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USTC is a top university which attracts top students from all over the country. It is a member school of China's C9 - aka "China Ivy" which comprises of:

Tsinghua
Peking
SH Jiaotong
Fudan
Xian Jiaotong
Zhejiang
Harbin IT
Nanjing

I am not surprised USTC can achieve some breakthrough scientific results!
 
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Zhenjiang is.. f*ck. 浙大女 你懂得

NDU, HUST, Wuhan University, 电子科技大学, Northwest Polytech (西北工业大学), etc are also very strong.
 
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