| 摘要 |
The underlying dynamics (∂tΨ=iHΨ) of quantum electrodynamics are symmetric with respect to time (T and CPT), but traditional calculations and design in electronics and electromagnetics impose an observer formalism or causality constraints which assume a gross asymmetry between forwards time and backwards time. My paper in the International Journal of Theoretical Physics (see http://arxiv.org/abs/0801.1234) describes how to construct physics based on the dynamics alone, without these extraneous assumptions. It showed that this changes certain predictions of physics, and that evidence from experiment favors the new and simpler theory. This disclosure follows up on that paper, by describing methods for circuit design based on the new physics. It provides a striking example—how to design a quantum separator (QS), which separates out the eigenfunctions which supply ordinary time-forwards free energy from the time-inverted eigenfunctions, when the QS is connected to bidirectional power supplies now under development in several places. |
