Advances in Chemical Physics: Modern Nonlinear Optics【无重复】

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Advances in Chemical Physics: Modern Nonlinear Optics, Volume 119, Part 2, 2nd Edition: Myron W. Evans
Wiley-Interscience | ISBN: 0471389315 | 2001-09-28 | PDF (OCR) | 800 pages | 11.06 Mb
The new edition will provide the sole comprehensive resource available for non-linear optics, including detailed descriptions of the advances over the last decade from world-renowned experts.
Summary: Higher-order Symmetry, Non-Abelian Electrodynamics
Rating: 5
This impressive, 3-book set offers a large number of chapters, covering a wide array of advances in the physics and chemistry of electrodynamics being made by leading researchers from around the world. Individual chapter authors have been carefully selected to ensure authoritative treatment of each topic. Editors Prigogine and Evans have published widely on many of these topics. Of particular note is the more than 600 papers by Dr. Evans on higher-order symmetry, non-Abelian EM, which are referenced throughout this book set. The application of standard gauge theory of high-energy physics to the development of higher-order symmetry, non-Abelian EM is given as a starting point from which derivative developments are explored further in this outstanding book set. Parallel developments embracing the O(3) and SU(2) gauges are presented, indicating many important commonalities and results. In-depth treatment of potential theory is given, including the concept of fieldless EM based solely on potentials. Of major note is the novel development and derivation of higher-order symmetry, non-Abelian EM from the basic Einstein irreps embraced by the Sachs theory of general relativity (GR). It is shown that EM and gravity are both derivative from a common set of irreps in this Sachs-Evans theory. In theory, it is shown as a further derivative from Sachs-Evans that useable energy is possible to be extracted from the "active vacuum" by way of "non-symmetrical regauging." These, among other noteworthy advances, are intellectually refreshing and stimulating and will, no doubt, engender further research and development of computer-hosted simulations and new experiments, many of which are suggested and described, to provide more convincing proof. Industrial applications are further suggested -- such as Radiatively-induced Fermion Resonance (RFR) showing potential performance enhancements for medical and other applications of imaging techniques. Because of the significance of these wide-ranging advances, this 3-book set is highly recommended to all physics and chemistry researchers in academe and industry alike.
Summary: Review of Modern Nonlinear Optics - Myron Evans - Volume 85
Rating: 5
This is an exciting three parts review which introduces the emerging field of non-Abelian electrodynamics and its role in unifield field theory.Maxwell-Heaviside theory is extended and developed to reveal many new insights. It is shown how in its accepted form this theory, of a hundred or so years, cannot properly explain simple optical and interferometric effects. Non Abelian electrodynamics,however, successfully describes a series of known phenomena and makes new predictions - such as the possibility of extracting energy from the vacuum and the interdependence of electromagnetic and gravitational forces.The three volumes are well presented and balanced covering the traditional approach and introducing the new theoretical developments from a number of starting points. It is seen how generally they produce the same overall consistent results (which are mostly embodied in a general theory of Mendel Sachs). Physical consequences are evaluated and supporting experimental evidence reviewed or referenced where it is available.Aspects of this reviewed work are already being described as landmarks in scientific development. Dr Gareth Evans, December, 2001
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