A REASONABLE STORY OF ELECTRODYNAMICS
Author: Nicolae Mazilu
Published on Wednesday, January 9th, 2008 in category ProtoQuant
VI. References
Aharonov, Y., Bohm, D. (1959): Significance of Electromagnetic Potentials in the Quantum Theory, Physical Review , Vol. 115, pp. 485 – 491
Betounes, D. E. (1983): The Kinematical Aspect of the Fundamental Theorem of Calculus, American Journal of Physics, Vol. 51, pp. 554 – 560
Boyer, T. H. (1973): Classical Electromagnetic Deflections and Lag Effects Associated with Quantum Interference Pattern Shifts, Physical Review D, Vol. 8, pp. 1679 – 1693
Boyer, T. H. (2000): Does the Aharonov-Bohm Effect Exist?, Foundations of Physics, Vol. 30, pp. 893 – 905
Creanga, I., Luchian, T. (1963): Introduction to Tensor Calculus, Editura Didactica si Pedagogica, Bucharest (in Romanian)
Dirac, P. A. M. (1931): Quantised Singularities in the Electromagnetic Field, Proceedings of the Royal Society of London, Series A, Vol. 133, pp. 60 – 72
Ehrenberg, W., Siday, R. E. (1949): The Refractive Index in Electron Optics and the Principles of Dynamics, Proceedings of the London Physical Society, Vol. B62, pp. 8 – 21
Hehl, F. W., Obukhov, Y. N. (2000): A Gentle Introduction to the Foundations of Classical Electrodynamics, arXiv: physics/0005084, v2
Israel, W., Wilson, G. A. (1972): A Class of Stationary Electromagnetic Vacuum Fields, Journal of Mathematical Physics, Vol. 13, pp. 865 – 867
Le Bellac, M., Lévy-Leblond, J.-M. (1973): Galilean Electromagnetism, Il Nuovo Cimento, Vol. 14B, pp. 217 – 234
Matteucci, G., Pozzi, G. (1985): New Diffraction Experiment on the Electrostatic Aharonov-Bohm Effect, Physical Review Letters, Vol. 54, pp. 2469 – 2472
Post, E. J. (1997): Formal Structure of Electromagnetics, Dover Publications, New York
Roche, J. (1998): The Present Status of the Maxwell’s Displacement Current, European Journal of Physics, Vol. 19, pp. 155 – 166
Roche, J. (2001): Axial Vectors, Skew-Symmetric Tensors and the Nature of the Magnetic Field, European Journal of Physics, Vol. 22, pp. 193 – 203
Scorgie, G. C. (1998): Only the Integral Form of the Electromagnetic Inductions Explains the Dynamo, American Journal of Physics, Vol. 66, p. 543
Van Dantzig, D. (1934): The Fundamental Equations of Electromagnetism, Independent of Metrical Geometry, Mathematical Proceedings of the Cambridge Philosophical Society, Vol. 30, pp. 421 – 427
Zapolsky, H. S. (1986): Does Charge Conservation Imply the Displacement Current? American Journal of Physics, Vol. 55, p. 1140