Contemporary Materials II−1 (2011)
Contemporary Materials II−1 (2011) Page 1 of 4
MOLECULAR DISSOCIATION DUE TO THE B(3) FIELD
M. W. Evans*
Sometime J. R. F. Wolfson College, Oxford,
Sometime Ramsay Memorial Fellow, University College, London.
(www.webarchive.org.uk, www.aias.us, www.atomieprecision.com, www.et3m.net, www.upitec.org)
Abstract
The fundamental B(3) field of electromagnetic radiation is shown to produce a driving torque by interaction with a molecule or ion, a torque that can be amplified with Euler resonance. The resonance is induced by tuning a frequency of the electromagnetic field to a natural frequency of a catalyst in a nanometric mould. Kurata has developed this into a full scale industrial process producing clean burning fuels of various kinds, and clean water.
Keywords: The B(3) field of ECE theory, molecular dissociation by the B(3) field, Euler resonance.
References
[1] M .W. Evans el al. "Generally Covariant Unified Field Theory" (Abramis 2005 onwards), in seven volumes.
[2] M W, Evans, ed., J. Found. Phys. Chem., May/June 2011 onwards bimonthly.
[3] The ECE sites: www.webarchive.org.uk, www.aias.us, www.atomieprecision.com, www.upitec.org, www.et3m.net
[4] M. W. Evans, S. Crothers. H. Eckardt and K. Pendergast. "Criticisms of the Einstein Field Equation" (Cambridge International Science Publishing, 2011).
[5] L. Felker. "The Evans Equations of Unified Field Theory" (Abramis 2007, www.aias.us).
[6] K Pendergast. "The Life of Myron Evans" (Cambridge International, 2011).
[7] M. W. Evans, ed. "Modern Nonlinear Optics" (Wiley 2001, second edition), in three volumes.
[8] M. W. Evans and S. Kielcih. eds., ibid., first edition (Wiley 1992,1993,1997), in three volumes.
[9] M. W. Evans and L. B. Crowell, "Classical and Quantum Electrodynamics and the B(3) Field", World Scientific 18 (2001).
[10] M .W. Evans and J.P, Vigier. "The Enigmatic Photon (Kluwer. 1994 to 2002), in ten volumes hardback and softback.
[11] R. Zawodny in ref. (8). volume 1, a review with circa 150 references.
[12] A. Piekara and S. Kielich, Arch Sci . 11, 304 (1958), the first inference of the inverse Faraday effect.
[13] Green Energy Fuels of Manchester Metropolitan University, www.gcf-uk.couk/processes.html.
[14] T. Kurata et al., ''The Theory of Quantum Wave Technology" (www.nqws.jp) from The B(3) Productive Energy Institute. Kobe. Japan European and U. S. Rights owned by the Tores Group.
[15] The website of the Cordoba plant based on the Kurata/B(3) system. www.renovablesmadeinspain.com, the first plant in the world of its kind.
[16] J. B. Marion and S. T. Thornton, Classical Dynamics, HB College Publishing, New York 1988, 3nd. Ed.).
[17] M.W. Evans, Molecular dynamics simulation of induced anisotropy. I. Equilibrium properties, J. Chem. Phys.76, (1982) 5473.
[18] M. W. Evans and C. Pelkie. Optical nuclear magnetic resonance: theory, simulation, and animation, J. Opt. Soc. America B. 9. (1992) 1020‒1029.
[19] M. W. Evans, Molecular dynamics computer simulation of magnetisation by an electromagnetic field, Phys. Lett. A, 157 (1991) 383‒390.
[20] M. W. Evans, S. Wozniak and G. Wagniere, Field applied molecular dynamics (FMD) simulation of the inverse Faraday effect, Physica B, 176 (1992) 33‒53.
[21] CCP6 Daresbury Workshop on Photodissociation and Vector Alignment (2005).
[22] M. W. Evans. G. J. Evans. W. T. Coffey and P. Grigolini. "Molecular Dynamics" (Wiley. 1982).