Quantum Nonlocality -- Possible Cosmophysical Effects

TL;DR

This paper suggests that cosmophysical effects, possibly explained by a new form of quantum nonlocality different from EPR-Bohm, influence nuclear decay and chemical reaction parameters, with experimental evidence showing annual and daily variations.

Contribution

It introduces a novel quantum nonlocality mechanism to explain cosmophysical influences on nuclear decay and chemical reactions, supported by experimental data.

Findings

Detected annual and daily variations in decay parameters.

Significant influence of solar activity on decay and reactions.

Proposed a new quantum nonlocality mechanism for these effects.

Abstract

Mutiple experimental results indicate the existence of cosmophysical effects which influence parameters of nuclear decays and chemical reactions in lab. conditions. In particular, variations of nucleus alpha-,beta-decay parameters with amplitudes of the order $10^{-3}$ and periods of one year and solar day were detected. Significant influence of solar activity on nuclear decay and chemical reaction parameters also was reported. We argue that such deviations from radioactive decay law and other similar effects can be described by novel quantum nonlocality mechanism, which differs from EPR-Bohm nonlocality. Doebner-Goldin nonlinear Hamiltonian applied for the description of nuclear decay parameter variations.