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Chinese physicists create first single-photon quantum memory, leading to quantum internet
By Sebastian Anthony on May 15, 2013 at 8:20 am

extremetech

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A lab in China is reporting that it has constructed the first memory device that uses single photons to store quantum data. This is a significant breakthrough that takes us further down the path towards a quantum internet, and potentially quantum computing as well.

As it currently stands, we already make extensive use of photons — the bulk of the internet and telecommunications backbone consists of photons traveling down fiber optic cables. Rather than single photons, though, these signals consist of carrier light waves of millions of photons, with the wave being modulated by binary data. These pulses are never stored, either; when they reach a router, they’re converted into electrical signals, and then stored in RAM before being converted back into light.

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A diagram showing the generation of a single photon (a), and the storage of a single photon with OAM (b)

Now, however, Dong-Sheng Ding and fellow researchers at the University of Science and Technology of China have announced that they have generated a single photon, stored it in a “cigar-shaped atomic cloud of rubidium atoms” for 400 nanoseconds, and then released the photon. The single photon is created using a process called spontaneous four-wave mixing, and the rubidium cloud stores the photon due to electromagnetically induced transparency (EIT). EIT causes a phenomenon called “slow light,” which is used here to “store” the photon for 400ns (more than long enough to count as computer memory).


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The retrieved photon signal, vs. the storage timeThe photon, being stored


The generation and storage would be a big achievement in itself, but there’s more: the rubidium trap also preserves the orbital angular momentum (OAM) of the photon. As we’ve covered before, electromagnetic waves (including photons) can have both spin and orbital angular momentum. Spin angular momentum (SAM), which is equivalent to the Earth spinning on its own axis, produces polarization — and then there’s OAM, which is equivalent to the Earth rotating around the Sun. Generally, in wireless and wired communications, signals only use SAM and are therefore flat — but by introducing OAM, a signal becomes a 3D helix. You can encode a lot more data into a carrier wave – perhaps an infinite amount – if you play with both the SAM and OAM. By preserving the OAM of the single photon, the Chinese researchers could be onto something very big indeed.

Moving forward, a photonic quantum memory is absolutely vital if we ever want to build a quantum internet out of quantum routers. Even if we pull back from lofty, quantum applications, if we could introduce OAM to the world’s fiber optic networks, the internet would suddenly get a whole lot faster.
 
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MIT Tech Review

Of course, the technologies that end up making the quantum internet of the future will depend on many other factors, not least of which will be a significant dollop of luck. But given the numerous advances in this area made by Chinese labs in recent years, only a fool would bet against Chinese technology playing a significant role in the way we quantum communicate in future.

Source
 
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I can State With reasonable certainty That the UK and European scientists Performed Human level Teleportation in experiments near the canary wharf in 2014-15...Science in news is at least 10 years outdated
 
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EIT causes a phenomenon called “slow light,” which is used here to “store” the photon for 400ns (more than long enough to count as computer memory).

So from my non-electronics-engineer understanding, the achievement is equivalent to current DRAM, in terms of speed and the need for a refreshment circuit.
 
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