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%%% Primary Title: Quantum Paradoxes and Bell's inequalities
%%% Primary Category Code: 03.
%%% Filename: QuantumParadoxesAndBellsInequalities.tex
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\begin{document}

 The following is a contributed topic on known quantum paradoxes

\subsection{Quantum Paradoxes and Bell's Inequalities}

There are two major known quantum `paradoxes':

\begin{enumerate}
\item The Scr\"odinger's cat paradox, often expressed as the ``Scr\"odinger's cat is neither dead nor alive'', but in fact meaning something quite different;

\item The \htmladdnormallink{EPR `Paradox'}{http://planetphysics.org/?op=getobj&from=lec&id=119}; several solutions of the
\htmladdnormallink{E.P.R}{http://planetphysics.org/?op=getobj&from=lec&id=119} `paradox' have been produced:

a. Interpretations of experiments with polarized laser beams
favor nonlocality in quantum \htmladdnormallink{systems}{http://planetphysics.us/encyclopedia/SimilarityAndAnalogousSystemsDynamicAdjointnessAndTopologicalEquivalence.html} and in the known, \htmladdnormallink{physical Universe}{http://planetphysics.us/encyclopedia/MultiVerses.html} thus suggesting that the assumptions of the E.P.R paper are the problem and that there is no paradox;

b. An \htmladdnormallink{Unified Local Field Theory (ULFT)}{http://arxiv.org/abs/quant-ph/0102101} also claims to solve
the \htmladdnormallink{EPR}{http://planetphysics.us/encyclopedia/FluorescenceCrossCorrelationSpectroscopy.html} `paradox' by assuming locality--which obviously conflicts the polarized
laser beam experiments' interpretations.


\end{enumerate}

\begin{thebibliography}{99}

\bibitem{[1]}
Einstein, A., Podolsky, B., and Rosen, N. (1935) Can quantum-mechanical
description of physical reality be considered complete ?,
Phys. Rev. 47, 777--780.

\bibitem{[2]BJS64}
Bell, J. S. (1964) On the Einstein Podolsky Rosen paradox, Physics 1,
195--200.

\bibitem{AL2k2}
A. Laudlau. 2002. Apeiron, Vol. 9, No. 1, January 2002 37. Roy Keys Inc.

\bibitem{[4]}
Bohm, D. and Aharonov, Y. (1957) Discussion of experimental proof for
the paradox of Einstein, Rosen, and Podolsky, Phys. Rev. 108, 1070--1076.

\bibitem{[5]}
Aspect, A., Dalibard, J., and Roger G. (1982) Experimental test of Bell’s
inequalities using time-varying analyzers, Phys. Rev. Lett. 49, 1804--1807.

\bibitem{[6]}
Chernitskii, A.A. (1999) Dyons and interactions in nonlinear (Born--Infeld)
electrodynamics, J. High Energy Phys. 1999, no. 12, Paper 10, 1--34.

\bibitem{[7]}.
Einstein, A. and Tagore, R. (1931) The nature of reality, Modern Review
(Calcutta) XLIX, 42--43.

\bibitem{[8]} Chernitskii, A.A. (1998) Nonlinear electrodynamics with singularities (modernized Born--Infeld electrodynamics), Helv. Phys. Acta 71, 274--287.

\bibitem{[9]}
Chernitskii, A.A. (1998) Light beams distortion in nonlinear electrodynamics,
J. High Energy Phys. 1998, no. 11, Paper 15, 1--5.

\bibitem{[10]}
Chernitskii, A.A. (2000) Bidyon or an electromagnetic model for charged
particle with spin, $hep-th/0002083$.

\bibitem{[11]}
Chernitskii, A.A. (2002) Born-Infeld electrodynamics: Clifford number and
spinor representations, Int. J. Math. and Math. Sci. 31, 77--84.

\bibitem{[12]}
Devoret, M.H. and Schoelkopf, R.J. (2000) Amplifying quantum signals
with the single-electron transistor, Nature 406, 1039--1046.

\bibitem{[13]}
Clauser J. and Horne M. Detector Inefficiencies in the EPR experiment.
Phys. Rev. D 35 (12) 3831--3835 (1987).

\bibitem{[14]}
Vaidman L. Tests of Bell Inequalities $quant-ph/0107057$ (2001).

\bibitem{[15]}
Aspect A., Grangier P. and Roger B. Phys. Rev. Lett. 49, 1804--1807
(1982)

\bibitem{[16]}
Scarani V., Tittel W., Zbinden H., Gisin N. $quant-ph/0007008$ Phys. Lett.
A 276 2000 1-7 (2000)

\bibitem{[17]}
Ou, Z.Y., Pereira S.F., Kimble H.J. and Peng K.C. Phys Rev. Lett. 68,
3663 (1992)

\bibitem{[18]}
Percival, I.C. Physical Letters., A 244 (6) pp. 495-501 (1998).

\bibitem{[19]} Smoot G. Detection of Anisotropy in the Cosmic Blackbody Radiation. Physical Review Letters 39 14 p898 (1977).

\bibitem{[20]}
Peebles, P.J.E. and Wilkinson D.T. Phys. Rev. 174 2168 (1968).

\bibitem{[21]}
Longair, M.S. The Physics of Background Radiation. The Deep Universe.
Springer Verlag (1995)

\bibitem{[22]}
Weinberg, S. The First Three Minutes. Basic Books. pp.71-72. (1977).

\bibitem{[23]}
Dirac P.A.M. The Theory of the electron (parts 1 and 2). Proceedings of
the Royal Society in London. A117, p610 and A118, p.351 (1928)

\bibitem{[24]}
Breit G. An interpretation of Dirac's Theory of the electron. Proceedings
of the National Academy of Sciences USA, 14 p.553 (1928)

\bibitem{[25]}
Schr\"odinger, E. Sitzungsberichte Berlin Akadamie, p.418 (1930).

\bibitem{[26]} Dirac P.A.M. Principles of Quantum Mechanics. Oxford. p263. (1958)

\bibitem{[27]}
Messiah, A. Quantum Mechanics. Vols. 1 and 2., vol.2: Ch XX, pp.922--925.

\bibitem{[28]}
Bohm D. The Special Theory of Relativity. pp23--25. (1996)

\bibitem{[29]}
Hafele J. and Keating R. Science, 177 p.166 (1972).

\bibitem{[30]}
Kundig W. Phys Rev. 129, 2371 (1963)

\bibitem{[31]}
Ives H. and Stillwell. Journal of the Optical Society of America.m 28 pp.
215-226 (1938) and 31 p369 (1941)

\bibitem{[32]}
Konopinski E.J. Electromagnetic fields and Relativistic particles
McGraw Hill p315-319 (1981)

\bibitem{[33]}
Poynting J.H. Phil. Trans. 175 p343-361 (1884)

\bibitem{[34]}
Bohm D. and Hiley B. The Undivided Universe: an ontological
interpretation of quantum mechanics. Routledge Publs. pp.288-292 (1993).

\bibitem{[35]}
Teller, P. An Interpretive Introduction to Quantum Field Theory. Ch 7
(1995).

\bibitem{[36]}
Cui, H.Y. Direction Adaptation Nature of Coulomb' s Force and
Gravitational Force in 4--Dimensional Space--time physics/0102073
(2001).

\bibitem{[37]}
Cui, H.Y. Method for Deriving the Dirac Equation from the Relativistic
Newton' s Second Law., $quant-ph/0102114$ (2001).

\bibitem{[38]}
Redhead, M. Incompleteness, Nonlocality and Realism. Oxford University
Press (1987).

\bibitem{[39]}
Rembielinski, J. Superluminal Phenomena and the Quantum Preferred
Frame., $quant-ph/0010026$ (2000).

\bibitem{[40]}
Konopinskim, E. J. Electromagnetic Fields and Relativistic Particles.
McGraw Hill publ.,  pp. 441-454 (1981).

\bibitem{[41]}
d’Espagnat, B. A note on measurement. quant-ph/0101141 (2001).

\bibitem{[42]}
Wang, L.J., Kuzmich A., Dogariu A. Nature 406, pp. 277-279 (2000).

\bibitem{[43]}
Olkhovsky, V. S., Recami E. and Salesi G. Superluminal effects for
quantum tunneling through TWO successive barriers $quant-ph 0002022$
v4 (2001).

\bibitem{[44]}
Chernitskii. A.A. Concept of Unified Local Field Theory and Nonlocality
of Matter $quant-ph/0102101$ (2001).

\bibitem{[45]}
Van Flandern. T. The Speed of Gravity--What the Experiments Say.
Physics Letters A, 250 1--11 (1998).

\bibitem{[46]}
Lloyd, S. (2000) Ultimate physical limits to computation, Nature, 406,
1047--1054.
\end{thebibliography} 

\end{document}