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

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

Noboru Hokkyo

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Senjikan Institute

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

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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.

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Funding

No external funding was declared for this work.

Conflict of Interest

The authors declare no conflict of interest.

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No ethics committee approval was required for this article type.

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Not applicable for this article.

How to Cite This Article

Noboru Hokkyo. 2016. \u201cSingle-Electron Double-Slit Experiment and Semi-Closed Friedman Model of Binary Black Hole Emitting Gravitational Wave\u201d. Global Journal of Science Frontier Research - A: Physics & Space Science GJSFR-A Volume 16 (GJSFR Volume 16 Issue A2).

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GJSFR Volume 16 Issue A2

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Journal Specifications

Crossref Journal DOI 10.17406/GJSFR

Print ISSN 0975-5896

e-ISSN 2249-4626

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Classification

GJSFR-A Classification FOR Code: 020109

Submission ReceivedJanuary 24, 2016
Peer Review Double Blind
Handling Editor
Accepted February 18, 2016
Published February 29, 2016

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v1.2

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March 29, 2016

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Article Matrices

Total Score: 146

Country: Japan

Subject: Global Journal of Science Frontier Research - A: Physics & Space Science

Authors: Noboru Hokkyo (PhD/Dr. count: 0)

View Count (all-time): 173

Total Views (Real + Logic): 3798

Total Downloads (simulated): 1923

Publish Date: 2016 03, Tue

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Total Views: 3798

Total Downloads: 1923

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