Does the radioactive decay obey the Poisson statistics?

A. A. Kirillov

arXiv:hep-th/0010131·hep-th·May 23, 2007

Does the radioactive decay obey the Poisson statistics?

A. A. Kirillov

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Open Access

TL;DR

This paper proposes that a quantum structure of space at macroscopic scales can cause deviations from Poisson statistics in radioactive decay, explaining observed anomalies.

Contribution

It introduces a novel quantum space structure hypothesis that leads to non-Poissonian statistical distributions in radioactivity.

Findings

01

Radioactive decay may not follow Poisson statistics due to quantum space effects.

02

A new interference phenomenon arises from quantum space structure.

03

Potential explanation for deviations in radioactive decay measurements.

Abstract

It is shown that a nontrivial quantum structure of our space at macroscopic scales, which may exist as a relic of quantum gravity processes in the early universe, gives rise to a new phenomenon: spontaneous origin of an interference picture in every physical process. This explains why statistical distributions in radioactivity measurements may be different from the Poisson distribution.

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Taxonomy

TopicsRadioactive Decay and Measurement Techniques · Graphite, nuclear technology, radiation studies · Radioactive contamination and transfer