Superconducting Applications in Quantum Computation: Difference between revisions
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==Background== | ==Background== | ||
Computers perform computations using bits, a fundamental unit of information that is either in the state 1 or 0. One bit may not be particularly powerful but many bits can hold a lot of information; a string of n bits can be in any one of 2^n states. | Computers perform computations using bits, a fundamental unit of information that is either in the state 1 or 0. One bit may not be particularly powerful but many bits can hold a lot of information; a string of n bits can be in any one of 2^^n states. | ||
Revision as of 23:31, 13 April 2011
Superconducting materials could potentially be used to implement a quantum computer, a device that utilizes quantum mechanical properties to produce significantly more powerful processors than we could possibly create in a classical computer. Typically, classical computers are composed of macroscopic integrated circuits made of semi-conducting materials, which are limited by classical mechanics. A quantum computer would be capable of accessing bit states unavailable to classical bits, making them exponentially more powerful.
Background
Computers perform computations using bits, a fundamental unit of information that is either in the state 1 or 0. One bit may not be particularly powerful but many bits can hold a lot of information; a string of n bits can be in any one of 2^^n states.