1. The Causal Enigma. - 1. 1 Microcosmis it causal or bitemporal?. - 1. 2 The neoclassical electromagnetic theory. - 1. 3 Causal theoriesincomplete in microcosm. - 2. Photons in Bitemporal Microcosm. - 2. 1 Introduction. - 2. 2 Plane photon pulses in the bitemporal time domain. - 2. 3 The photon routing process. - 2. 4 Photon doubletsthe new entities. - 2. 5 Concluding remarks. - 3. Neoclassical Electromagnetics. - 3. 1 Definition of the generalized circuit. - 3. 2 Generalized circuit equation. - 3. 3 General definition of photon doublets. - 3. 4 The scattering formulation of circuit response. - Appendix to Chapter 3. - 4. Are Electron Media Bitemporal?. - 4. 1 Doublet interactions in collisionless plasmas. - 4. 2 Bitemporal collision scattering in conductors. - 4. 3 Bitemporal DC conduction in a circular wire. - 5. Photon Wave-Particle Transition. - 5. 1 Introductionthe paradox. - 5. 2 Classical time average macroscopic transition. - 5. 3 Wave to particle transition of single photons. - 5. 4 Photon emission and absorption by atoms. - 5. 5 Photon wave to particle transition in striplines. - 6. Photons in General Networks. - 6. 1 Classical circuit modeling. - 6. 2 Single photon predicament in general circuits. - 6. 3 Neoclassical theory of single photons in networks. - 7. Double Slit Experiment for Photons. - 7. 1 Introductionthe paradoxes. - 7. 2 Classical macroscopic model. - 7. 3 Neoclassical theory of single photon routing. - 7. 4 Numerical procedure of spot build up pattern. - Appendix to Chapter 7. - A. 2 Slit plate scattering matrix. - 8. Double Slit Experiment for Electrons. - 8. 1 Introductionthe paradoxes. - 8. 2 Electromagnetic fields of the double slit plate. - 8. 3 Diffraction pattern with numerical simulations. - 8. 4 Neoclassical theory of electron diffraction from a single slit. - 9. The Enigmatic 1/F Noise. -9. 1 What is 1/f noise?. - 9. 2 Hooge's empirical 1/f hypothesis. - 9. 3 Photon excitation of 1/f noise. - 9. 4 Macroscopic scattering in the radial resistor system. - 9. 5 Single photon absorption and reflection at the resistor. - 9. 6 Concluding remarks. - 10. Questioning Stern-Gerlach. - 10. 1 Basis of the Stern-Gerlach experiment. - 10. 2 The flaw in the Stern-Gerlach theory. - 11. Photon TunnelingSuperluminal?. - 11. 1 Photon tunneling in a microwave configuration. - Appendix to Chapter 11. - 12. Interferometric Experiments. - 12. 1 Introduction. - 12. 2 Neoclassical theory of the beam splitter. - 12. 3 The Mach-Zehnder interferometer. - 12. 4 Mach-Zehnder delayed choice experiment. - 13. The Famous Epr Paradox. - 13. 1 Introduction. - 13. 2 The basic EPR configuration. - 13. 3 Neoclassical theory of the EPR configuration. - 13. 4 The EPR paradox in neoclassical interpretation. - 14. Quantum Bases-Neoclassical View. - 14. 1 Introduction. - 14. 2 Quantum principles and foolish questions'. - 14. 3 The uncertainty relationhow uncertain?. - 14. 4 Collapse of the wave function-the measurement problem. - References. Language: English