麻豆淫院

(麻豆淫院Org.com) -- In a new demonstration of reversible light storage, physicists have achieved storage efficiencies of more than a magnitude greater than those offered by previous techniques. The new method could be useful for designing quantum repeaters, which are necessary for achieving long-distance quantum communication.

麻豆淫院icists Thierry Chaneli膷re of the Laboratoire Aim茅 Cotton - CNRS in Orsay, France, and his coauthors have published their results of the new light storage method in a recent issue of the New Journal of 麻豆淫院ics.

The new technique involves mapping a light field onto a thulium-doped crystal. Compared with other kinds of rare-earth ions, thulium has an interaction wavelength that makes it more easily accessible with laser diodes, allowing for a better preparation of the tool used to store the light - an atomic frequency comb.

鈥淚 would say that the most important factor [in achieving high-efficiency light storage] is the ability to properly prepare the atomic comb from a very absorbing medium,鈥� Chaneli膷re told 麻豆淫院Org.com. He explained that there is a tradeoff involved: 鈥渢he absorption allows the storage, but is also a source of loss during the retrieval process.鈥�

To prepare the atomic frequency comb, the physicists filtered preparation pulses into evenly spaced absorption peaks, which resulted in an absorption comb with a specific periodicity. The scientists then sent a weak signal pulse into the comb to be stored. The signal鈥檚 spectrum was covered by many of the comb peaks, which temporarily held the signal and delayed its retrieval.

Using this technique, the physicists estimated that the total light storage efficiency was about 9%, which is a significant improvement over previous demonstrations鈥� efficiencies of less than 1%.

鈥淭he efficiency is the probability of retrieval,鈥� Chaneli膷re explained. 鈥淚n our case, for 100 storage trials, we only retrieve our photon nine times. So we need to repeat the operation to be sure that something is transmitted. This is the way a quantum repeater will work. A strong advantage of the atomic frequency comb protocol is its large intrinsic repetition rate that has already been demonstrated experimentally. The 鈥榪uantum data rate鈥� of a quantum repeater will be at the end directly proportional to the efficiency and the intrinsic repetition rate. That's why it is so important.鈥�

The scientists also found that the total light storage efficiency strongly depends on the shape of the frequency comb, which can be controlled by varying the relative intensity of the preparation pulses. Using this information, the physicists hope that by controlling the spectral properties of the atomic frequency comb, they will be able to improve the design of quantum repeaters.

鈥淭he main application of the protocol is quantum repeaters,鈥� Chaneli膷re said. 鈥淭his is the future of quantum cryptography, which is an active field of research but suffers from the limitation of current optical networks. The range of this fully-secured communication is currently limited to 100km typically because of residual absorption in the optical fibre. The goal of a quantum repeater is to extend this range toward longer distances (thousands of km). This is what we mean by 鈥榣ong-distance quantum communication.鈥欌赌�

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