@ARTICLE{ Significance-of-Potentials,
abstract = "In this paper, we discuss some interesting properties of the electromagnetic
potentials in the quantum domain. We shall show that, contrary to the
conclusions of classical mechanics, there exists effects of potentials on
charged particles, even in the region where all the fields (and therefore the
forces on the particles) vanish. We shall then discuss possible experiments to
test these conclusions; and, finally, we shall suggest further possible
developments in the interpretation of the potentials.",
author = "Y. Aharonov and D. Bohm",
original = "SignifPotential/signifpotential.djvu",
title = "Significance of Electromagnetic Potentials in in the Quantum Theory",
journal = "The Physical Review",
year = "1959",
month = "August",
day = "1",
volume = "115",
number = "3"
}
@ARTICLE{ Aharonov-Bohm-Effect,
abstract = "Can electrons be influenced by a nearby magnet so well shielded
that its force field cannot be detected? The counterintuitive answer is yes:
an energy emanation from the magnet known as the potential does indeed affect
the electrons' wave function. This quantum-mechanical effect is being brought to
bear on the development of new microelectronic devices.",
author = "Yoseph Imry and Richard A. Webb",
original = "ABEffect/abeffect.djvu",
title = "Quantum Interference and the Aharonov-Bohm Effect",
journal = "Scientific American",
year = "1989",
month = "April",
volume = "260",
number = "4"
}
@ARTICLE{ SovietApotential,
abstract = "Active in the areas of the Aharonov-Bohm effect as applied to the A-vector potential and scalar fields as applied to solving force related problems.",
author = "Capt. Robert M. Collins (TQTR)",
original = "SovietApotential/SovietApotential.djvu",
title = "Soviet Research On The A-Vector Potential and Scalar Waves (U)",
year = "Unknown"
}
@ARTICLE{ SovietFalseVacuum,
abstract = "Theoretical progress in dealing with unified field theories...new concepts in weapons, transportation, propulsion",
author = "Capt. Robert M. Collins (TQTR)",
original = "SovietFalseVacuum/SovietFalseVacuum.djvu",
title = "Soviet Research On Unified Field Theories, False Vacuum States, and Antigravity (U)",
year = "Unknown"
}
@INCOLLECTION{ FieldsAndPhase,
author = "Dr. Jack Dea",
journal = "Planetary Association for Clean Energy Newsletter",
original = "FieldsAndPhase/FieldsAndPhase.djvu",
title = "Fundamental Fields and Phase Information",
volume = "4",
number = "3",
year = "Unknown"
}
@ARTICLE{ scalarfield,
abstract = "The expressions of the electric and magnetic fields, that can be derived from the Li'enard-Wiechert potentials, are in good agreement with experiments. Surprisingly the Li'enard-Wiechert potentials do not satisfy the Lorenz gauge condition, therefore they cannot be regarded as solutions of the Maxwell equations in the Lorenz gauge, but only as solutions of the inhomogeneous potential wave equations. Therefore, the inhomogeneous potential wave equations should be regarded as a separate set of differential equation that are unconnected with Maxwell's equations. In order to simplify this theory of classical electrodynamics we propose a generalization of Maxwell's equations, such that a gauge of the potentials is unnecessary in order to derive the Lorenz inhomogeneous potential wave equations. This generalization can be described as a conditional current regauge that does not violate the conservation of charge. This has several consequences: - the generalized Maxwell equations also contain scalar field terms. - the prediction of a longitudinal electro-scalar wave (LES wave) in vacuum. - a generalized Lorentz force expression that contains an extra scalar term. - generalized energy and momentum theorems, with an extra power flow term associated with LES waves.",
author = "K.J. van Vlaenderen",
month = "Sep",
original = "ScalarField/scalarfield.djvu",
title = "Electrodynamics with the scalar field",
year = "2001"
}
@INCOLLECTION{ 1903,
author = "E. T. Whittaker in Cambridge",
journal = "Mathematische Annalen",
month = "Nov",
original = "1903/1903.djvu",
pages= "333-355",
title = "On the partial differential equations of mathematical physics",
volume = "57",
year = "1903"
}
@INPROCEEDINGS{ 1904,
author = "E. T. Whittaker in Cambridge",
day = "11",
month = "Nov",
original = "1904/1904.djvu",
pages= "367-372",
publisher = "Proceedings of the London Mathematical Society",
title = "The Electromagnetic Field Due to Electrons by Means of Two Scalar Potential",
volume = "57",
year = "1904"
}
@ARTICLE{ PhaseConjugation,
abstract = "Light waves that are, in effect, time-reversed images of their original can serve to restore severely aberrated waves to their original state.",
author = "Concetto R. Giuliano",
journal = "Physics Today",
month = "April",
year = "1981",
original = "PhaseConj/PhaseC.djvu",
pages = "27-35",
title = "Applications of optical phase conjugation",
volume = "34",
number = "4"
}
@ARTICLE{ phasedet,
original = "PhaseDet/phasedet.djvu",
author = "GSC-12645",
title = "Precise Phase Comparator for Nearly Equal Frequencies",
journal = "NASA Tech Briefs, Fall/Winter 1981",
year = "1981",
month = "Nov",
volume = "6",
number = "3"
}
@ARTICLE{ FinalReport,
abstract = "Research intended to determine the feasibility of establishing a language, approaching English, between man and dolphin. Neurophone like circuit in Appendix-A.",
author = "Dwight W. Batteau and Peter R. Markey",
note= "N00123-67-C1103",
month = "December",
year = "1966",
original = "FinalReport/finalreport.djvu",
title = "Man/Dolphin Communication Final Report"
}