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Schrödinger -inspired quantum computing has been 160 times more reliable thanks to a new discovery.
The Quantum Computing Company Alice & Bob improved the reliability of your cat bits Quantums, when compressing their probabilistic states.
Scientists, who promised to improve the reliability and life of quantum computers and make way for a much more accurate technology, the results of their study recently in the arXiv.
As it writes, there has been a special effort to suppress error rates associated with bits inversion (when a QUBIT alternates the probabilities of measuring 0 or 1). Scientists have come across an increase in phase change errors (when a QUBIT changes its likelihood of being positive or negative).
Os “qubits cat” are a type of qubit that imitates the overlap principle Do – a thought experience that postulates that a cat in a box with a randomly activated poison can be considered simultaneously alive and dead until it is directly observed.
Previous investigations of the company Alice & Bob They demonstrated that their quibits reached a life of 138 milliseconds.
Now, the new technique has delineated a way never before seen from stabilizing the quibits CAT, with a protection against phase change up to 160 times higher – Which is equivalent to a life time of 22 seconds for the QBits Cat. That is, this cat from Schrödinger was 160 times less cheater.
As Live Science details, the team got this result compressing the quantum states of the qubit Cat so that there was a lower overlap between the two states.
The technique demonstrated in this investigation is especially useful as it does not require any modifications to circuit design. The “compression” of the Cat Qbits will therefore make the less intensive error correction in terms of resources than previous methods.
These findings are expected to have practical applications in domains such as Chemistry and the Science of Materials.
