Autores, Editores, Burócratas, Administradores
2226
ediciones
sin resumen de edición
El entrelazamiento cuántico es un recurso físico, como la energía, asociado con las singulares correlaciones no-clásicas que son posibles entre sistemas cuánticos separados. El entrelazamiento puede ser medido, transformado y purificado. Un par de sistemas cuánticos en un estado entrelazado pueden utilizarse como un canal de información cuántica para realizar tareas computacionales y criptográficas que son imposibles para sistemas clásicos. El estudio general de las capacidades de procesamiento de la información que poseen los sistemas cuánticos es el tema principal de la teoría de la información cuántica.
Barrett, J. 2007. “Information Processing in Generalized Probabilistic Theories”. <em>Physical Review A</em> 75: 032304.
Barrett, J., L. Hardy y A. Kent. 2005. “No signaling and Quantum Key Distribution”. <em>Physical Review Letters</em> 95: 010503.
Bell, J.S. 1964. “On the Einstein-Podolsky-Rosen Paradox”. <em>Physics</em> 1: 195-200.
Bennett, C.H. y B.D. DiVicenzo. 2000. “Quantum Information and Computation”. <em>Nature</em> 404: 247-255.
Bohr, N. 1935. “Can Quantum-Mechanical Description of Physical Reality be Considered Complete?”. <em>Physical Review</em> 38: 696-702.
Born, M., ed. 1992. <em>The Born-Einstein Letters</em>. Dordrecht: Reidel.
Brassard, G. 2005. “Is Information the Key?”. <em>Nature Physics</em> 1: 2-4.
Bub, J. 2006. “Quantum Information and Computation”. En<em> Philosophy of Physics (Handbook of Philosophy of Science)</em>, editado por John Earman y Jeremy Butterfield, 555-660. Amsterdam: North Holland. [disponible online].
Bub, J. 2007. “Quantum Computation from a Quantum Logical Perspective”. <em>Quantum Information and Computation</em> 7: 281-296.
Bub, J. 2008. “Quantum Computation and Pseudotelepathic Games”. <em>Philosophy of Science</em> 75: 458-472.
Bub, J. 2015. <em>Bananaworld: Quantum Mechanics for Primates</em>. Oxford: Oxford University Press.
Deutsch, D. 1985. “Quantum Theory, the Church-Turing Principle and the Universal Quantum Computer”. <em>Proceedings of the Royal Society (London)</em> A400: 97-117.
Deutsch, D. 1997. <em>The Fabric of Reality</em>. London: Penguin.
Dieks, D. 1982. “Communication by EPR Devices”. <em>Physics Leters A</em> 92: 271-272.
Einstein, A., B. Podolsky y N. Rosen. 1935. “Can Quantum-Mechanical Description of Physical Reality be Considered Complete?”. <em>Physical Review</em> 47: 777-780.
Ekert, A. 1991. “Quantum Cryptography Based on Bell’s Theorem”. <em>Physical Review Letters</em> 67: 661-663.
Ekert, A. y R. Renner. 2014. “The Ultimate Physical Limits of Privacy”. <em>Nature</em> 507: 443-447.
Everett, H. 1957. “'Relative State' Formulation of Quantum Mechanics”. <em>Reviews of Modern Physics</em> 29: 454-462.
Feynman, R. 1996. <em>Feynman Lectures on Computation</em>. Editado por J.G. Hey y R.W. Allen. Reading, MA: Addison-Wesley Publishing Company.
Fuchs, C.A. 2014. “An Introduction to QBism with an Application to the Locality of Quantum Mechanics”. <em>American Journal of Physics</em> 82: 749-754.
Holevo, A.S. 1973. “Statistical Problems in Quantum Physics”. En <em>Proceedings of the Second Japan-USSR Symposium on Probability Theory, editado por</em> G. Murayama y J.V. Prokhorov, 104-109. Berlin: Springer.
Kent, A. 1999. “Unconditionally Secure Bit Commitment”. <em>Physical Review Letters</em> 83: 1447-1450.
Kent, A. 2012. “Unconditionally Secure Bit Commitment by Transmitting Measurement Outcomes”. <em>Physical Review Letters</em> 109: 130501.
Lo, H.-K. y H. F. Chau. 1997. “Is Quantum Bit Commitment Really Possible?”. <em>Physical Review Letters</em> 78: 3410-3413.
Lo, H.-K., S. Popescu y T. Spiller. 1998. <em>Introduction to Quantum Computation and Information</em>. Singapore: World Scientific.
Mayers, D. 1997. “Unconditionally Secure Quantum Bit Commitment is Impossible”. <em>Physical Review Letters</em> 78: 3414-3417.
Navascues, M. y H. Wunderlich. 2009. “A Glance Beyond the Quantum Model”. <em>Proceedings of the Royal Society A</em> 466: 881-890 [disponible online].
Nielsen, M.A. y I.L. Chuang. 2000. <em>Quantum Computation and Quantum Information</em>. Cambridge: Cambridge University Press.
Pawlowski, M., T. Patarek, D. Kaszlikowski, V. Scarani, A. Winter y M. Zukowski. 2009. “A New Physical Principle: Informaiton Causality”. <em>Nature</em> 461: 1101.
Ramanathan, R., T. Patarek, A. Kay, P. Kurzynski y D. Kaszkilowski. 2010. “Local Realism of Macroscopic Correlations”. <em>Physical Review Letters</em> 107: 060405.
Schrödinger, E. 1935. “Discussion of Probability Relations Between Separated Systems”. <em>Proceedings of the Cambridge Philosophical Society</em> 31: 555-563; 32 (1936): 446-451.
Schumacher, B. 1995. “Quantum Coding”. <em>Physical Review A</em> 51: 2738-2747.
Shannon, C. E. y W. Weaver. 1949. <em>The Mathematical Theory of Communication</em>. Urbana: University of Illinois Press.
Skrzypczyk, P., N. Brunner y S. Popescu. 2009. “Emergence of Quantum Correlations from Nonlocality Swapping”. <em>Physical Review Letterrs</em> 102: 110402.
Steane, A. M. 1998. “Quantum Computing”. <em>Reports on Progress in Physics</em> 61: 117-173.
Steane, A. M. 2003. “A Quantum Computer Needs Only One Universe”. <em>Studies in History and Philosophy of Modern Physics</em> 34B: 469-478 [disponible online].
Timpson, C. G. 2013. <em>Quantum Information Theory and the Foundations of Quantum Mechanics</em>. Oxford: Oxford University Press.
van Dam, W. 2013. “Implausible consequences of superstrong nonlocality”. <em>Natural Computing</em> 12(1): 9-12.
van Fraassen, B. 1982. “The Charybdis of Realism: Epistemological Implications of Bell's Inequality”. <em>Synthese</em> 52: 25-38.
Wootters, W. K. y W. H. Zurek. 1982. “A Single Quantum Cannot be Cloned”. <em>Nature</em> 299: 802-803.
{{Citar|url = http://dia.austral.edu.ar/Entrelazamiento_cuántico_e_información|cabecera = Bub, Jeffrey. 2017. "Entrelazamiento cuántico e información"}}
==Derechos de autor ==
Voz "Entrelazamiento cuántico e información", traducción autorizada de la entrada "[https://plato.stanford.edu/archives/sum2015/entries/qt-entangle/ Quantum Entanglement and Information]" de la ''Stanford Encyclopedia of Philosophy (SEP)'' © 2017. La traducción corresponde a la entrada de los archivos de la SEP, la que puede diferir de la versión actual por haber sido actualizada desde el momento de la traducción. La versión actual está disponible en: [https://plato.stanford.edu/entries/qt-entangle/ https://plato.stanford.edu/entries/qt-entangle/].
El DIA agradece a SEP la autorización para efectuar y publicar la presente traducción.
Traducción a cargo de Federico Holik. DERECHOS RESERVADOS Diccionario Interdisciplinar Austral © Instituto de Filosofía - Universidad Austral - Claudia E.Vanney - 2017.
ISSN: 2524-941X
==Herramientas académicas==
'''Otros recursos en internet'''
Al‐Safi, S.W., Short, A.J., 2013. “[http://arxiv.org/pdf/1312.3931v1.pdf Reversible Dynamics in Strongly Non Local Boxworld Systems]”, en PDF, manuscrito en ArXiv.org, arxiv.org/abs/1312.3931.
Herbst, T., Scheidl, T., Fink, M., Handsteiner, J., Wittmann, B., Ursin, R., Zeilinger, A., 2014. “[http://arxiv.org/pdf/1403.0009v3.pdf Teleportation of Entanglement over 143 km]”, en PDF, manuscrito en ArXiv.org, arxiv.org/abs/1403.0009.
[http://arxiv.org/find/quant-ph arXiv E-print Archive for Quantum Physics].
[http://www-bcf.usc.edu/~tbrun/Course/index.html Todd Brun's Lecture Notes in Quantum Information Processing].
[http://www.theory.caltech.edu/~preskill/ph219 John Preskill's Course on Quantum Information and Computation].
[http://cam.qubit.org/ Cambridge Centre for Quantum Computation].
[http://oxfordquantum.org/ Quantum Information Processing at Oxford University].
[http://www.iqoqi-vienna.at/ Institute for Quantum Optics and Quantum Information, Austrian Academy of Sciences].
[http://cms.unige.ch/gap/quantum/wiki/start Group of Applied Physics, University of Geneva].
[http://www.quantumlah.org/ Centre for Quantum Technologies, University of Singapore].
[http://jqi.umd.edu/ Joint Quantum Institute, University of Maryland].
[http://www.newyorker.com/magazine/2011/05/02/dream-machine The Dream Machine. New Yorker article on quantum computing, 2011].
[http://www.wired.com/2014/04/quantum-theory-flow-time/ New Quantum Theory Could Explain the Flow of Time. Article in ''Wired'', 2014, reprinted from ''Quanta Magazine''].
[https://www.youtube.com/watch?gl=IT&hl=it&v=ta09WXiUqcQ Spooky Actions at a Distance? David Mermin's Openheimer Lecture].
