“Space Transport” penetration of quantum computing here

Quantum computing it has Huge potential, but it faces the problem of expansion. In order for this machine to be realistic in real terms, multiple quantum treatments must be collected in one location. This increases the strength of the processor but also its size, which makes it less practical and more sensitive. Scientists are working on a solution that appears to be something outside the science fiction chain: connecting the nuclei from each other through “space transport” to create more powerful machines.

This information transmission began to appear. Recently, a team of scientists at the University of Oxford managed to send the first wireless quantum algorithm between two separate quantitative treatment. Small core took advantage of their unique nature, collected their capabilities, and formed a superior computer to solve problems, which neither of which could not solve independently.

The team, under the leadership of the graduate student Dougal Mine, was able to obtain far -reaching systems to interact with each other and share logic gates using quantum intertwining. Thanks to this quantum mechanical phenomenon, a pair of associated molecules, even at a distance, sharing the same condition and thus transferring the same information. If someone changes, the other reflects it immediately.

Oxford scientists have used quantitative tangles to almost send basic information among computers. When the data travels long distances under this principle, it is said that “quantum space transport” has occurred. This traditional idea should not be confused about remote transport, which involves virtual virtual exchange of matter in space. In the experiment, the light particles remained in the same place, but the tangle allowed computers “seeing” information each other and working in parallel.

According to the team’s research paper published in natureThe immediate quantum transfer of algorithm was possible with photons and with stereotypes separated meters away. Information sincerity was 86 percent. This distributed quantum computing structure result is good enough to be an applicable way for large -scale technology Quantum.

The quantum space transport demonstrations appeared in the mathematical contexts in advance, but were limited to transferring cases between the regimes. Oxford University experience is distinctive because it uses space transportation to create interactions between remote cores. “This penetration allows us to connect” different quantum treatments effectively to one quantitative computers completely connected, “Maine said.

If the quantum computing technology is distributed in development, the era of the giant quantum machines may be behind us. The problem of expansion is likely to be solved with more machines that work together through quantum space transport. Currently, the primary processor can handle 50 Qubits, a unit of quantum information. Some scientists estimate that the machine with the ability to treat thousands or millions of Qubits will be a need to solve complex problems.

Even without tangle, the quantum machines are already strong enough to solve problems that seem impossible. Willo, the quantum slice of Google, recently solution A standard task called taking samples from the random circle in five minutes; It might take up to 10 years of traditional super computer to get the same result.

This story was originally appeared on EN Español wirelessAnd translated from Spanish.