Orbiting the Moons of Pluto: Complex Solutions to the Einstein, Maxwell, Schr dinger, and Dirac EquationsThe Maxwell, Einstein, Schr dinger and Dirac equations are considered the most important equations in all of physics. This volume aims to provide new eight- and twelve-dimensional complex solutions to these equations for the first time in order to reveal their richness and continued importance for advancing fundamental Physics. If M-Theory is to keep its promise of defining the ultimate structure of matter and spacetime, it is only through the topological configurations of additional dimensionality (or degrees of freedom) that this will be possible. Stretching the exploration of complex space through all of the main equations of Physics should help tighten the noose on ?the? fundamental theory. This kind of exploration of higher dimensional spacetime has for the most part been neglected by M-theorists and physicists in general and is taken to its penultimate form here. |
Contents
1 Introduction Orbiting the Moons of Pluto | 1 |
2 Structure Properties and Implications of Complex Minkowski Spaces | 9 |
Poincaré Invariance Analyticity Unitarity and Complex Minkowski Space | 41 |
4 Nonlocal Interconnectedness as a Fundamental Principle of Reality | 47 |
5 The Complexification of Maxwells Equations | 74 |
6 Vector and Scalar Potentials Advanced and Retarded Waves and Nonlocal Phenomena | 109 |
7 The Complex Form of Relativistic Maxwells Equations | 117 |
8 Real and Complex Amended Maxwells Equations for NonAbelian Gauge Groups | 138 |
10 The Schrödinger Equation in Complex Minkowski Space | 161 |
11 Spinors Twistors Quaternions and Complex Space | 185 |
12 Relativistic Dirac Quantum Theory in Complex Minkowski Space and Tachyonic Signaling | 209 |
13 Speculation on a Unified Field Theory UFT Grand Unification Theories GUT and Supersymmetry and Superstring Theories | 238 |
14 Unity of Consciousness Experience Nature of the Observer and Current Physical Theory | 267 |
Philosophical Breakthrough in FTL WarpDrive Technology | 349 |
389 | |
9 Sub and Superluminal Transformations of the Complex Vector Potential | 149 |
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Common terms and phrases
algebra Amoroso Anthropic anticipatory Bell’s Bell's theorem Bise black holes Bohm brain causality Chap coherent complex 8-space Complex Geometries complex Minkowski space complexification concept consciousness considered continuous-state cosmology define dimensional dimensions Dirac equation domain Einstein electromagnetic field electron energy experiment experimental formalism fundamental gauge gravitational Heisenberg Holographic imaginary components interactions interpretation Kaluza-Klein LBNL magnetic fields magnetic monopole Maxwell's equations metric Minkowski space multidimensional Multiverse noetic noetic field non-Hertzian nonlinear nonlocality observer paradox particle phenomena photon Phys physics plasma principle private communication properties qualia quantum mechanics quantum theory quaternions Rauscher real and imaginary reality relationship relativistic relativity remote connectedness represents rotation Schrödinger equation signals slit soliton solutions spacetime spatial spin string theory structure superluminal supersymmetry symmetry tachyonic temporal tensor topology transformation twistor unified universe utilized vacuum variables velocity wave function μν дх