Quantum Mechanics helps in searching for a needle in a haystack

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Abstract

Quantum mechanics can speed up a range of search applications over unsorted data. For example imagine a phone directory containing N names arranged in completely random order. To find someone's phone number with a probability of 50%, any classical algorithm (whether deterministic or probabilistic) will need to access the database a minimum of O(N) times. Quantum mechanical systems can be in a superposition of states and simultaneously examine multiple names. By properly adjusting the phases of various operations, successful computations reinforce each other while others interfere randomly. As a result, the desired phone number can be obtained in only O(sqrt(N)) accesses to the database.

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Efficient Networks for Quantum Factoring

Srikrishna Devabhaktuni, John Preskill, Amalavoyal Chari … (1996)

We consider how to optimize memory use and computation time in operating a quantum computer. In particular, we estimate the number of memory qubits and the number of operations required to perform factorization, using the algorithm suggested by Shor. A \(K\)-bit number can be factored in time of order \(K^3\) using a machine capable of storing \(5K+1\) qubits. Evaluation of the modular exponential function (the bottleneck of Shor's algorithm) could be achieved with about \(72 K^3\) elementary quantum gates; implementation using a linear ion trap would require about \(396 K^3\) laser pulses. A proof-of-principle demonstration of quantum factoring (factorization of 15) could be performed with only 6 trapped ions and 38 laser pulses. Though the ion trap may never be a useful computer, it will be a powerful device for exploring experimentally the properties of entangled quantum states.

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Searching a Quantum Phone Book

G. Brassard (1997)

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Publication date Created: 13 June 1997

Publication date Updated: 1997-07-17

Article

DOI: 10.1103/PhysRevLett.79.325

ArXiV ID: quant-ph/9706033

SO-VID: 91171065-628d-4e54-8be1-1dcdb208ca35

History

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Journal reference Phys.Rev.Lett.79:325-328,1997

Comments Postscript, 4 pages. This is a modified version of the STOC paper (quant-ph/9605043) and is modified to make it more comprehensible to physicists. It appeared in Phys. Rev. Letters on July 14, 1997. (This paper was originally put out on quant-ph on June 13, 1997, the present version has some minor typographical changes)

Categories quant-ph

ScienceOpen disciplines: Quantum physics & Field theory

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ScienceOpen disciplines: Quantum physics & Field theory