소장자료
LDR | 04084cam a2200313 a 4500 | ||
001 | 0093344291▲ | ||
005 | 20180519173832▲ | ||
008 | 100105s2010 enka b 001 0 eng c▲ | ||
010 | ▼a2010000125▲ | ||
015 | ▼aGBA9A1985▼2bnb▲ | ||
020 | ▼a9780521898768 (hardback)▲ | ||
020 | ▼a0521898765 (hardback)▲ | ||
040 | ▼aDLC▼cDLC▼dYDX▼dBWK▼dYDXCP▼dUKM▼dBTCTA▼dBWX▼dCDX▼dIUL▼dDLC▲ | ||
050 | 0 | 0 | ▼aQC174.12▼b.P435 2010▲ |
082 | 0 | 0 | ▼a530.12▼223▲ |
090 | ▼a530.12▼bP568b▲ | ||
245 | 0 | 0 | ▼aPhilosophy of quantum information and entanglement /▼cedited by Alisa Bokulich and Gregg Jaeger.▲ |
260 | ▼aCambridge, UK ;▼aNew York :▼bCambridge University Press,▼c2010.▲ | ||
300 | ▼axxx, 277 p. :▼bill. ;▼c26 cm.▲ | ||
504 | ▼aIncludes bibliographical references and index.▲ | ||
505 | 0 | 0 | ▼gPart I.▼tQuantum entanglement and non-locality:▼g1.▼tNon-locality beyond quantum mechanics /▼rSandu Popescu;▼g2.▼tEntanglement and subsystems, entanglement beyond subsystems, and all that /▼rLorenza Viola and Howard Barnum;▼g3.▼tFormalism locality in quantum theory and quantum gravity /▼rLucien Hardy --▼gPart II.▼tQuantum probability:▼g4.▼tBell's inequality from the contextual probabilistic viewpoint /▼rAndrei Khrennikov;▼g5.▼tProbabilistic theories: what is special about quantum mechanics? /▼rGiacomo Mauro D'Ariano;▼g6.▼tWhat probabilities tell about quantum systems, with application to entropy and entanglement /▼rJohn M. Myers and F. Hadi Madjid;▼g7.▼tBayesian updating and information gain in quantum measurements /▼rLeah Henderson --▼gPart III.▼tQuantum information:▼g8.▼tSchumacher information and the philosophy of physics /▼rArnold Duwell;▼g9.▼tFrom physics to information theory and back /▼rWayne C. Myrvold;▼g10.▼tInformation, immaterialism, and instrumentalism: old and new in quantum information /▼rChristopher G. Timpson --▼gPart IV.▼tQuantum communication and computing:▼g11.▼tQuantum computation: where does the speed-up come from? /▼rJeffrey Bub;▼g12.▼tQuantum mechanics, quantum computing and quantum cryptography▼rTai Tsun Wu.▲ |
520 | ▼a"Recent work in quantum information science has produced a revolution in our understanding of quantum entanglement. Scientists now view entanglement as a physical resource with many important applications. These range from quantum computers, which would be able to compute exponentially faster than classical computers, to quantum cryptographic techniques, which could provide unbreakable codes for the transfer of secret information over public channels. These important advances in the study of quantum entanglement and information touch on deep foundational issues in both physics and philosophy. This interdisciplinary volume brings together fourteen of the world's leading physicists and philosophers of physics to address the most important developments and debates in this exciting area of research. It offers a broad spectrum of approaches to resolving deep foundational challenges - philosophical, mathematical, and physical - raised by quantum information, quantum processing, and entanglement. This book is ideal for historians, philosophers of science and physicists"--Provided by publisher.▲ | ||
520 | ▼a"Entanglement can be understood as an extraordinary degree of correlation between states of quantum systems - a correlation that cannot be given an explanation in terms of something like a common cause. Entanglement can occur between two or more quantum systems, and the most interesting case is when these correlations occur between systems that are space-like separated, meaning that changes made to one system are immediately correlated with changes in a distant system even though there is no time for a signal to travel between them.1 In this case one says that quantum entanglement leads to non-local correlations, or non-locality. More precisely, entanglement can be defined in the following way"--Provided by publisher.▲ | ||
650 | 0 | ▼aQuantum theory▼xPhilosophy.▲ | |
650 | 0 | ▼aQuantum computing.▲ | |
650 | 0 | ▼aInformation theory.▲ | |
700 | 1 | ▼aBokulich, Alisa.▲ | |
700 | 1 | ▼aJaeger, Gregg.▲ | |
999 | ▼a김진영▼c김정이▲ |
Philosophy of quantum information and entanglement
자료유형
국외단행본
서명/책임사항
Philosophy of quantum information and entanglement / edited by Alisa Bokulich and Gregg Jaeger.
발행사항
Cambridge, UK ; New York : Cambridge University Press , 2010.
형태사항
xxx, 277 p. : ill. ; 26 cm.
서지주기
Includes bibliographical references and index.
내용주기
Part I. Quantum entanglement and non-locality : 1. Non-locality beyond quantum mechanics / Sandu Popescu ; 2. Entanglement and subsystems, entanglement beyond subsystems, and all that / Lorenza Viola and Howard Barnum ; 3. Formalism locality in quantum theory and quantum gravity / Lucien Hardy -- Part II. Quantum probability : 4. Bell's inequality from the contextual probabilistic viewpoint / Andrei Khrennikov ; 5. Probabilistic theories: what is special about quantum mechanics? / Giacomo Mauro D'Ariano ; 6. What probabilities tell about quantum systems, with application to entropy and entanglement / John M. Myers and F. Hadi Madjid ; 7. Bayesian updating and information gain in quantum measurements / Leah Henderson -- Part III. Quantum information : 8. Schumacher information and the philosophy of physics / Arnold Duwell ; 9. From physics to information theory and back / Wayne C. Myrvold ; 10. Information, immaterialism, and instrumentalism: old and new in quantum information / Christopher G. Timpson -- Part IV. Quantum communication and computing : 11. Quantum computation: where does the speed-up come from? / Jeffrey Bub ; 12. Quantum mechanics, quantum computing and quantum cryptography Tai Tsun Wu.
요약주기
"Recent work in quantum information science has produced a revolution in our understanding of quantum entanglement. Scientists now view entanglement as a physical resource with many important applications. These range from quantum computers, which would be able to compute exponentially faster than classical computers, to quantum cryptographic techniques, which could provide unbreakable codes for the transfer of secret information over public channels. These important advances in the study of quantum entanglement and information touch on deep foundational issues in both physics and philosophy. This interdisciplinary volume brings together fourteen of the world's leading physicists and philosophers of physics to address the most important developments and debates in this exciting area of research. It offers a broad spectrum of approaches to resolving deep foundational challenges - philosophical, mathematical, and physical - raised by quantum information, quantum processing, and entanglement. This book is ideal for historians, philosophers of science and physicists"--Provided by publisher./"Entanglement can be understood as an extraordinary degree of correlation between states of quantum systems - a correlation that cannot be given an explanation in terms of something like a common cause. Entanglement can occur between two or more quantum systems, and the most interesting case is when these correlations occur between systems that are space-like separated, meaning that changes made to one system are immediately correlated with changes in a distant system even though there is no time for a signal to travel between them.1 In this case one says that quantum entanglement leads to non-local correlations, or non-locality. More precisely, entanglement can be defined in the following way"--Provided by publisher./
ISBN
9780521898768 (hardback) 0521898765 (hardback)
청구기호
530.12 P568b
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