Digitisation and Entanglement: Difference between pages
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imported>Doug Williamson (Create page. Sources: linked pages & The Treasurer October 2018, p37.) |
imported>Doug Williamson (Create page. Sources: linked pages and Institute for Quantum Computing webapge ''Quantum computing''. In quantum computing, superposition is the ability of a quantum system to be in two states simultaneously. For example, the ability of a qubit to encod) |
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''Quantum computing''. | |||
In quantum computing, entanglement is a property of quantum particles that contributes to the ability of a quantum computer to process vastly more information, faster, compared with a conventional (binary) computer. | |||
Entanglement is an extremely strong correlation that exists between quantum particles. | |||
It is so strong that two or more quantum particles can be inextricably linked in perfect unison, even if separated by great distances. | |||
The particles are so intrinsically connected, they can be said to “dance” in instantaneous, perfect unison. | |||
== See also == | ==See also== | ||
* [[ | *[[Binary]] | ||
* [[ | *[[Correlation]] | ||
* [[ | * [[Quantum]] | ||
* [[Quantum computing]] | |||
*[[Qubit]] | |||
*[[Superposition]] | |||
[[Category:Technology]] |
Latest revision as of 11:50, 18 December 2019
Quantum computing.
In quantum computing, entanglement is a property of quantum particles that contributes to the ability of a quantum computer to process vastly more information, faster, compared with a conventional (binary) computer.
Entanglement is an extremely strong correlation that exists between quantum particles.
It is so strong that two or more quantum particles can be inextricably linked in perfect unison, even if separated by great distances.
The particles are so intrinsically connected, they can be said to “dance” in instantaneous, perfect unison.