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020 _a9780750322287
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020 _a9780750322270
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020 _z9780750322263
_qprint
024 7 _a10.1088/2053-2563/ab2b33
_2doi
035 _a(CaBNVSL)thg00979635
035 _a(OCoLC)1128001598
040 _aCaBNVSL
_beng
_erda
_cCaBNVSL
_dCaBNVSL
050 4 _aQC174.17.E58
_bD834 2019eb
072 7 _aPHJ
_2bicssc
072 7 _aSCI053000
_2bisacsh
082 0 4 _a539.725
_223
100 1 _aDuarte, F. J.
_q(Frank J.),
_eauthor.
245 1 0 _aFundamentals of quantum entanglement /
_cF.J. Duarte.
264 1 _aBristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) :
_bIOP Publishing,
_c[2019]
300 _a1 online resource (various pagings) :
_billustrations (some color).
336 _atext
_2rdacontent
337 _aelectronic
_2isbdmedia
338 _aonline resource
_2rdacarrier
490 1 _a[IOP release 6]
490 1 _aIOP expanding physics,
_x2053-2563
490 1 _aIOP series in coherent sources and applications
500 _a"Version: 20191001"--Title page verso.
504 _aIncludes bibliographical references and index.
505 0 _a1. Introduction -- 1.1. Introduction -- 1.2. A few words on quantum mechanics -- 1.3. Ward's observation -- 1.4. History of quantum entanglement -- 1.5. The field of quantum entanglement -- 1.6. Fundamentals of Quantum Entanglement -- 1.7. Inten
505 8 _a2. Dirac's contribution -- 2.1. Introduction -- 2.2. Dirac's pair theory -- 2.3. Dirac's notation -- 2.4. Dirac's notation in N-slit interferometers -- 2.5. Semi coherent interference -- 2.6. From quantum probabilities to measurable intensities
505 8 _a3. The Einstein-Podolsky-Rosen (EPR) paper -- 3.1. Introduction -- 3.2. EPR's doubts on quantum mechanics -- 3.3. EPR's definition of a correct theory
505 8 _a4. The Schr�odinger papers -- 4.1. Introduction -- 4.2. The first Schr�odinger paper -- 4.3. The second Schr�odinger paper
505 8 _a5. Wheeler's paper -- 5.1. Introduction -- 5.2. Wheeler's paper's significance to quantum theory -- 5.3. Wheeler's paper's significance to quantum experiments
505 8 _a6. The probability amplitude for quantum entanglement -- 6.1. Introduction -- 6.2. The Pryce-Ward paper -- 6.3. Ward's doctoral thesis -- 6.4. Summary
505 8 _a7. The quantum entanglement experiment -- 7.1. Introduction -- 7.2. The quantum entanglement experiment -- 7.3. Historical notes
505 8 _a8. The annihilation quantum entanglement experiments -- 8.1. Introduction -- 8.2. The first three quantum entanglement experiments -- 8.3. Further significance of the annihilation experiments
505 8 _a9. The Bohm and Aharonov paper -- 9.1. Introduction -- 9.2. Significance to the development of quantum entanglement research -- 9.3. Philosophy and physics
505 8 _a10. Bell's theorem -- 10.1. Introduction -- 10.2. von Neumann's work -- 10.3. Bell's theorem or Bell's inequalities -- 10.4. An additional perspective on Bell's theorem -- 10.5. Example -- 10.6. More philosophy and physics
505 8 _a11. Feynman's Hamiltonians -- 11.1. Introduction -- 11.2. Probability amplitudes via Hamiltonians �a la Feynman -- 11.3. Arrival to quantum entanglement probability amplitudes -- 11.4. Discussion
505 8 _a12. The second Wu quantum entanglement experiment -- 12.1. Introduction -- 12.2. Salient features -- 12.3. Bell's theorem and hidden variables
505 8 _a13. The hidden variable theory experiments -- 13.1. Introduction -- 13.2. Testing for local hidden variable theories -- 13.3. Early optical experiment -- 13.4. Observations and discussion
505 8 _a14. The optical quantum entanglement experiments -- 14.1. Introduction -- 14.2. The Aspect experiments -- 14.3. Observations and discussion
505 8 _a15. The quantum entanglement probability amplitude 1947-1992 -- 15.1. Introduction -- 15.2. The quantum entanglement probability amplitude 1947-92 -- 15.3. Observations and discussion
505 8 _a16. The GHZ probability amplitudes -- 16.1. Introduction -- 16.2. The GHZ probability amplitudes -- 16.3. Observations and discussion
505 8 _a17. The interferometric derivation of the quantum entanglement probability amplitude for n = N = 2 -- 17.1. Introduction -- 17.2. The meaning of the Dirac-Feynman probability amplitude -- 17.3. The derivation of the quantum entanglement probabil
505 8 _a18. The interferometric derivation of the quantum entanglement probability amplitude for n = N = 2p1s, 2p2s, 2p3s, 2p4s, ... 2prs -- 18.1. Introduction -- 18.2. The quantum entanglement probabili
505 8 _a19. The interferometric derivation of the quantum entanglement probability amplitudes for n = N = 3, 6 -- 19.1. Introduction -- 19.2. The quantum entanglement probability amplitude for n = N = 3 -- 19.3. The quantum entanglement probability ampl
505 8 _a20. What happens with the entanglement at n = 1 and N = 2? -- 20.1. Introduction -- 20.2. Reversibility : from entanglement to interference -- 20.3. Schematics -- 20.4. Experimental and theoretical perspectives -- 20.5. Interference for N slits
505 8 _a21. Quantum entanglement probability amplitudes and Bell's theorem -- 21.1. Introduction -- 21.2. Probability amplitudes -- 21.3. Quantum polarization -- 21.4. Quantum probabilities and Bell's theorem -- 21.5. Example -- 21.6. Discussion
505 8 _a22. Cryptography via quantum entanglement -- 22.1. Introduction -- 22.2. Measurement protocol -- 22.3. Experiments
505 8 _a23. Quantum entanglement and teleportation -- 23.1. Introduction -- 23.2. The mechanics of teleportation -- 23.3. Technology
505 8 _a24. Quantum entanglement and quantum computing -- 24.1. Introduction -- 24.2. Entropy -- 24.3. Qbits -- 24.4. Quantum entanglement and Pauli matrices -- 24.5. Pauli matrices and quantum entanglement -- 24.6. Quantum gates -- 24.7. The Hadamard m
505 8 _a25. Space-to-space and space-to-Earth communications via quantum entanglement -- 25.1. Introduction -- 25.2. Space-to-space configurations -- 25.3. The space-to-Earth experiment -- 25.4. Further horizons
505 8 _a26. Space-to-space quantum interferometric communications : an alternative to quantum entanglement communications? -- 26.1. Introduction -- 26.2. The generalized N-slit quantum interference equations -- 26.3. The generation and transmission of i
505 8 _a27. Quanta pair sources for quantum entanglement experiments -- 27.1. Introduction -- 27.2. Positron-electron annihilation -- 27.3. Atomic Ca emission -- 27.4. Type I SPDC -- 27.5. Type II SPDC -- 27.6. Further horizons
505 8 _a28. More on quantum entanglement -- 28.1. Introduction -- 28.2. Consequences of the EPR paper -- 28.3. Hidden variable theories -- 28.4. The perspectives of EPR and Schr�odinger on quantum entanglement -- 28.5. Indistinguishability and Dirac
505 8 _a29. On the interpretation of quantum mechanics -- 29.1. Introduction -- 29.2. Quantum critical -- 29.3. Pragmatic perspective -- 29.4. Fundamental principles -- 29.5. The Dirac-Feynman-Lamb doctrine -- 29.6. The importance of the probability amp
520 3 _aQuantum entanglement (QE) is undoubtedly one of the most, if not the most, mysterious and yet most promising subjects of current physics. With applications in cryptographic space-to-space, space-to-earth, and fibre communications, in addition to
521 _aResearch students, optical engineers, communication, cryptography specialist, physicists not specialized in Dirac's quantum mechanics.
530 _aAlso available in print.
538 _aMode of access: World Wide Web.
538 _aSystem requirements: Adobe Acrobat Reader, EPUB reader, or Kindle reader.
545 _aF.J. Duarte is an award-winning laser physicist who is a Fellow of the Australian Institute of Physics, and the Optical Society. As an expert in the field of narrow-linewidth tuneable lasers and their applications, Duarte has a vast knowledge an
588 0 _aTitle from PDF title page (viewed on November 18, 2019).
650 0 _aQuantum entanglement.
650 7 _aOptical physics.
_2bicssc
650 7 _aSCIENCE / Physics / Optics & Light.
_2bisacsh
710 2 _aInstitute of Physics (Great Britain),
_epublisher.
776 0 8 _iPrint version:
_z9780750322263
830 0 _aIOP (Series).
_pRelease 6.
830 0 _aIOP expanding physics.
830 0 _aIOP series in coherent sources and applications.
856 4 0 _3e-book
_zFull-text access
_uhttps://ezproxy.mef.edu.tr/login?url=https://iopscience.iop.org/book/978-0-7503-2228-7
942 _2lcc
_cEBKS
999 _c28965
_d28965
003 KOHA