## Fundamental problems in quantum theory: a conference held in honor of Professor John A. WheelerDaniel M. Greenberger, John Archibald Wheeler, Anton Zeilinger |

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### Contents

Quantum Classical and Metaphysical Aspects By D | 13 |

SecondOrder PhotonPhoton Correlations and Atomic Spectroscopy | 28 |

EPR and TwoPhoton Interference Experiments Using TypeII Parametric | 40 |

Copyright | |

71 other sections not shown

### Common terms and phrases

amplitude angle atom beam beam-splitter Bell inequality Bell's Bell's theorem cavity classical coherence coincidence consider correlation corresponding crystal decoherence defined density described detection detector diffraction discussed distribution downconversion dynamical effect eigenstate electron emission emitted energy ensemble entangled equation evolution example experiment experimental filter frequency fringes geometric phase given gravitational Hamiltonian initial interaction interference interferometer ions laser Lett macroscopic magnetic field maser measurement mode momentum neutron nonlocal observed obtained operator optical oscillation parameters particle path phase shift photon photon number photon pairs Phys physical polarization possible postselected potential predictions probability pulse pump quantum measurement quantum mechanics quantum system quantum theory reference region resonant Rydberg atoms scheme Schrodinger setup shown in Figure signal single slit space spin spontaneous emission statistical stochastic superposition theorem tion transition trap two-particle two-photon variables vector velocity violation wave function wave packet width Wien filter zero