Physical basis of quantum computation and cryptography. Poster
Author
Calixto Molina, ManuelKnowledge Area
Matemática AplicadaPublication date
2007Publisher
Springer BerlinBibliographic Citation
CALIXTO, Manuel. Physical basis of quantum computation and cryptography. En: International Work-Conference on the Interplay Between Natural and Artificial Computation (2ª: 2007: La Manga del Mar Menor, España). Second International Work-Conference on the Interplay Between Natural and Artificial Computation, IWINAC 2007, La Manga del Mar Menor, Spain, June 18-21, 2007, Proceedings, Part I : Bio-inspired Modeling of Cognitive Tasks. New York: Springer Berlin, 2007. ISBN 978-3-540-73052-1Keywords
Teoría de la información cuánticaTeoría de la información
Mecánica cuántica
Paralelismo cuántico
Criptografía
Computación cuántica
Quantum information theory
Information theory
Quantum mechanics
Quantum parallelism
Cryptography
Quantum computation
Abstract
Quantum computing combines two of the main scientific
achievements of the 20th century: Information Theory and
Quantum Mechanics. Its interdisciplinary character is one
of the most stimulating and appealing attributes. The new
Quantum Information Theory augurs powerful machines
that obey the “entangled” logic of the subatomic world. Parallelism,
entanglement, teleportation, no-cloning and quantum
cryptography are typical peculiarities of this novel way
of understanding computation. In this article, we highlight
and explain these fundamental ingredients that make Quantum
Computing potentially powerful.
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