Brainy Quote of the Day

Tuesday, September 30, 2014

Quantum Data Compression...

Artistic impression of quantum information. (Courtesy: iStockphoto/tusumaru)

A quantum analogue of data compression has been demonstrated for the first time in the lab. Physicists working in Canada and Japan have squeezed quantum information contained in three quantum bits (qubits) into two qubits. The technique could pave the way for a more effective use of quantum memories and offers a new method of testing quantum logic devices.



Compression of classical data is a simple procedure that allows a string of information to take up less space in a computer's memory. Given an unadulterated string of, for example, 1000 binary values, a computer could simply record the frequency of the 1s and 0s, which might require just a dozen or so binary values. Recording the information about the order of those 1s and 0s would require a slightly longer string, but it would probably still be shorter than the original sequence.



Quantum data are rather different, and it is not possible to simply determine the frequencies of 1s and 0s in a string of quantum information. The problem comes down to the peculiar nature of qubits, which, unlike classical bits, can be a 1, a 0 or some "superposition" of both values. A user can indeed perform a measurement to record the "one-ness" of a qubit, but such a measurement would destroy any information about that qubit's "zero-ness". What is more, if a user then measures a second qubit prepared in an identical way, he or she might find a different value for its "one-ness" – because qubits do not specify unique values but only the probability of measurement outcomes. This latter trait would seem to preclude the possibility of compressing even identical qubits, because there is no way of predicting what classical values they will ultimately manifest as.


Note: I know that was difficult to follow, but don't go all "new age" here. Although I've noticed the popularity of relating quantum physics to metaphysics, the two are mutually exclusive - quantum only applies to phenomena going at or approaching the speed of light. Ahem: we humans are rather slow in comparison.

Physics World: Quantum data are compressed for the first time
Jon Cartwright, Bristol, UK

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