Stochastic electrodynamics bibliography

From Wikipedia, the free encyclopedia

This is an incomplete bibliography for the topic of stochastic electrodynamics

• Alfonso Rueda & Bernard Haisch, Gravity and the Quantum Vacuum Inertia Hypothesis, Annalen der Physik, Vol. 14, No. 8, 479-498 (2005).

• Daniel C. Cole & Yi Zou, Analysis of Orbital Decay Time for the Classical Hydrogen Atom Interacting with Circularly Polarized Electromagnetic Radiation, Physical Review E, 69, 016601, (2004).

• Daniel C. Cole & Yi Zou, Quantum Mechanical Ground State of Hydrogen Obtained from Classical Electrodynamics, Physics Letters A, Vol. 317, No. 1-2, pp. 14-20, (2003).

• Bernard Haisch, Alfonso Rueda & York Dobyns, Inertial mass and the quantum vacuum fields, Annalen der Physik, 10, 393-414 (2001).

• Daniel C. Cole, Alfonso Rueda, Konn Danley, Stochastic nonrelativistic approach to gravity as originating from vacuum zero-point field van der Waals forces, Phys. Rev. A, 63, 054101, (2001).

• Y. Dobyns, A. Rueda & B.Haisch, The Case for Inertia as a Vacuum Effect: a Reply to Woodward & Mahood, Foundations of Physics, Vol. 30, No. 1, 59 (2000).

• B. Haisch & A. Rueda, On the relation between a zero-point-field-induced inertial effect and the Einstein-de Broglie formula, Physics Letters A, 268, 224, (2000).

• Wallis M. K., Field theorists strike back-stochastic electrodynamics, Contemporary Physics, Volume 39, Number 6, 1 November 1998, pp. 483-486(4) (book review of "The Quantum Dice")

• A. Rueda & B. Haisch, Contribution to inertial mass by reaction of the vacuum to accelerated motion, Foundations of Physics, Vol. 28, No. 7, pp. 1057-1108 (1998).

• B. Haisch & A. Rueda, The Zero-Point Field and Inertia, in "Causality and Locality in Modern Physics," G. Hunter, S. Jeffers & J.-P. Vigier (eds.), Kluwer Acad. Publ., pp. 171-178, (1998).

• A. Rueda & B. Haisch, Electromagnetic Vacuum and Inertial Mass, in "Causality and Locality in Modern Physics," G. Hunter, S. Jeffers & J.-P. Vigier (eds.), Kluwer Acad. Publ., pp. 179-186, (1998).

• H. M. Franca, H. Franco and C. P. Malta, A stochastic electrodynamics interpretation of spontaneous transitions in the hydrogen atom, Eur. J. Phys. 18 343-349, (1997).

• B. Haisch, A. Rueda & H.E. Puthoff, Physics of the Zero-Point-Field: Implications for Inertia, Gravitation and Mass, Speculations in Science & Technology, Vol. 20, pp. 99-114, (1997).

• B. Haisch & A. Rueda, Reply to Michel's "Comment on Zero-Point Fluctuations and the Cosmological Constant", Astrophys. J., 488, 563, (1997).

• M. Ibison & B. Haisch, Quantum and classical statistics of the electromagnetic zero-point-field, Physical Review A, 54, pp. 2737-2744, (1996).

• A. Rueda, B. Haisch & D.C. Cole, Vacuum Zero-Point Field Pressure Instability in Astrophysical Plasmas and the Formation of Cosmic Voids, Astrophysical Journal, Vol. 445, pp. 7-16 (1995).

• M. Surdin, Cosmology and Stochastic Electrodynamics, Part II, Physics Essays, Vol 6, p. 27, (1993)

• M. Surdin, Cosmology and Stochastic Electrodynamics, Physics Essays, Vol 5, p. 491, (1992)

• H. E. Puthoff, Source of Vacuum Electromagnetic Zero-Point Energy, Phys. Rev. A 40, 4857-4862 (1989)

• Marshall, T. W., Stochastic Electrodynamics and the Einstein-Podolsky-Rosen Argument, in: Quantum Mechanics Versus Local Realism, The Einstein-Podolsky-Rosen Paradox (F. Selleri ed.), Plenum Press, pages 413--432, (1988) ISBN 0-306-42739-7

• G. Cavalleri, The New Ether of Stochastic Electrodynamics. Origin and Limits of Special Relativity and Quantum Electrodynamics, in Proc. of I Int. Conf. "Physical Interpretations of Relativity Theory" (London, September 1988), edited by M. C. Duffy (University of Sunderland, Great Britain), Vol. II, p. 1 (1988).

• Boyer, Timothy H., "The Classical Vacuum", Scientific American, p. pp 70-78, Aug 1985

• Boyer, Timothy H., Derivation of the black-body radiation spectrum from the equivalence principle in classical physics with classical electromagnetic zero-point radiation. The Physical Review, D, vol.29, number 6, pp.1096-1097. (1984)

• G. Cavalleri, The propagator of stochastic electrodynamics, Phys. Rev. D 23, 363-372 (1981)

• Boyer, Timothy H., Retarded van der Waals Forces at All Distances Derived from Classical Electrodynamics with Classical Electromagnetic Zero-Point Radiation, Phys. Rev. A 7, 1832-1840 (1973)

• Boyer, Timothy H., Quantum Electromagnetic Zero-Point Energy and Retarded Dispersion Forces, Phys. Rev. 174, 1631-1638 (1968)

• L. de la Pena, A. M. Cetto, "Contribution from stochastic electrodynamics to the understanding of quantum mechanics" quant-ph/0501011

• Senatchin, O. A. (2001). "De Broglie wave, spontaneous emission and Planck's radiation law according to stochastic electrodynamics." 11 Jan 2001.

• Ibison, Michael (2003). "Electrodynamics in the zero-point field: on the equilibrium spectral energy distribution and the origin of inertial mass". Found. Phys. Lett.: 83-90.  physics/0106080

• Kracklauer, A. L. (1999). "Pilot Wave Steerage: A Mechanism and Test" 12: 441-453.  quant-ph/9711013

• Hirayama, T.; and Holdom, B. (2005). "Classical Simulation of Quantum Fields I." 14 Jul 2005.

• Carmichael, H. J.; and Nha, Hyunchul (2004). "Vacuum fluctuations and the conditional homodyne detection of squeezed light". J. Opt. B: S645.  quant-ph/0406102