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Open-air quantum teleportation performed across a 97km lake

China is one of leaders, if not best!!
I heard that the quantum communication will solve the problem of submarine communication in real time, and quantum communication is much safer!
Quantum communication is unhackable. By the way, China is a very close second (number of publications). Number one is the usual culprit: US of A.

Other application: PAL locks on nuclear warheads.

Keep it up, this century belongs to you guys! :cheers:
 
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this experiment is the similar as the one tested in vienna between two canary islands awhile ago where prof. pan jianwei is also the head researcher over there..


Free space quantum teleportation over 144 km
*ttp://iactalks.iac.es/talks/view/279

Prof. Pan Jianwei honored with Fresnel Prize by the European Physical Society
2005/07/25

Prof. Pan Jianwei (J. W. Pan), a physicist of the CAS-affiliated University of Science and Technology of China (USTC), has received the 2005 Fresnel Prize of the European Physical Society.

Prof. Pan was selected by the award's jury for "his pioneering works on experimental demonstration of quantum teleportation, entanglement swapping, entanglement purification and multi-photon entanglement. "

Prof. Pan graduated from the Department of Modern Physics, USTC, in 1992, and received his Ph. D from University of Vienna in 1999. He has been engaged in the studies into quantum communication for many years. Some of his pioneering work in the field includes the first realization of quantum teleportation in the world, entanglement swapping, preparation and manipulation of three-, four- and five-photon entanglement, and entanglement purification

In 1993, in cooperation with Dr. D. Bouwmeester, Prof. Pan was the first ever in the world to accomplish distant transmission of unknown quantum states and the resulting paper was published in the Nature. His paper was also appraised by the prestigious journal to be among the "Twenty-one Classic Papers in a Hundred Years of Physics".

In April 2005, Prof. Pan and his colleagues demonstrate that desired entanglement can still survive and be used in secure quantum communication after entangled photon pairs have been distributed through the noisy ground atmosphere of 13 km, which is the longest yet and well beyond the effective thickness of the aerosphere.
 
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Photons Over 88 Miles

An international team of researchers has published their paper demonstrating quantum teleportation between two Canary Islands.

Last May, European researchers reported successfully teleporting photos over a distance of 143 km – a little over 88 miles- between two Canary Islands. When I discussed this finding at the time, one of the caveats I had mentioned about this experiment is that it hadn’t yet been peer-reviewed. Well, now it has. The researchers’ findings have been reviewed and published in Nature. The previous record of 97 kilometers by a team of researchers in China was published in Nature earlier this month.

Those researchers, who are affiliated with the Austrian Academy of Sciences and other European organizations, used lasers to teleport a photon from one Canary Island to the other. This was a process that required several key innovations, because the most common teleportation solution – using optical fiber – wasn’t an option due to signal degradation.

Xiao-song Ma:azn:, one of the scientists involved in the experiment, said in a press release that “The realization of quantum teleportation over a distance of 143 km has been a huge technological challenge.”

That’s putting it mildly. When researchers quantum teleport a photon, they aren’t making it disappear and reappear like on Star Trek. Instead, the information contained in the photon’s quantum state is transmitted from one photon to another through quantum entanglement – without actually travelling the intervening distance. Unfortunately, this doesn’t mean that information is travelling instantaneously. That’s because the transfer of information occurs when the sender measures the quantum state of their photon. That causes the receiver’s entangled photon to instantly change.

However, in order to understand the information, the receiver has to know what the original measurement was, along with some other instructions. Those instructions are sent via normal communications, which are limited to being no faster than the speed of light.

(If this is making your head hurt, you’re in good company. It makes physicists’ heads hurt, too.)

To all of this complexity, now add weather – over a large body of water, no less. You start to see the problem, because even the most focused lasers can experience a loss of signal when it passes through water, water vapor, etc. And right now, quantum teleportation is an extremely delicate process. Which makes both the Chinese and European researchers’ work – which use different methods – all the more impressive. The European experiment took place over the ocean, and the Chinese experiment crossed a lake.

While quantum teleportation doesn’t lead to instantaneous communication, what it does lead to is incredibly secure communications. That’s because no matter what instructions the sender sends over normal communications channels, those instructions are completely useless without the receiver’s entangled photon. And the sender doesn’t have to know the location of the receiver’s entangled photon. It could be anywhere – there’s no way to track it.

Of course, there’s still a long way to go – decades, perhaps – before this produces any kind of practical communications device. These researchers, however, are eager to move on to the next step – quantum teleportation between the Earth’s surface and a satellite.

“Our experiment shows how mature ‘quantum technologies’ are today, and how useful they can be for practical applications,” said physicist Anton Zeilinger in a press release. “The next step is satellite-based quantum teleportation, which should enable quantum communication on a global scale. We have now taken a major step in this direction and will use our know-how in an international cooperation, which involves our colleagues at the Chinese Academy of Sciences. The goal is to launch a ‘quantum satellite mission’.”(around 2015:yahoo:)

If that mission is successful, then we might start seeing the backbone of a satellite-based, secure, quantum Internet. The applications could be quite fascinating.
 
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good job Europe :tup:

researchers all over the world working to push science forward.
 
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first task/use : un-hackable, un-interceptable, completely secured submarine communications
 
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