Single-Electron Double-Slit Experiment and Semi-Closed Friedman Model of Binary Black Hole Emitting Gravitational Wave

Authors

  • Noboru Hokkyo

Keywords:

quantum theory, gravitation, cosmology, causality, singularity, anomaly

Abstract

Previous time-symmetric but non-relativistic interpretation of the single-electron doubleslit experiment visualizing the particle-wave dual nature of the electron is extended to a relativistic interpretation of the singular nature of the electron as a quantum anomaly occurring at Compton scale distances ultraviolet regions from the point particle source and the detection point violating time-symmetry and local causality The lensing action of the double-slit is next compared to the lensing action of galaxy cluster or black hole in the foreground of a distant extragalactic light source and extended to a semi-closed Friedman model of the recently observed binary back hole emitting a trangent gravitational wave signal Historical comments are given on the early philosophical notion of the reality of the intermediate states between source and detector

How to Cite

Noboru Hokkyo. (2016). Single-Electron Double-Slit Experiment and Semi-Closed Friedman Model of Binary Black Hole Emitting Gravitational Wave. Global Journal of Science Frontier Research, 16(A2), 31–34. Retrieved from https://journalofscience.org/index.php/GJSFR/article/view/1736

Single-Electron Double-Slit Experiment and Semi-Closed Friedman Model of Binary Black Hole Emitting Gravitational Wave

Published

2016-01-15