TITLE:
Local Electromagnetic Fields Exhibit Temporally Non-Linear, East-West Oriented 1 - 5 nT Diminishments within a Toroid: Empirical Measurement and Quantitative Solutions Indicating a Potential Mechanism for Excess Correlation
AUTHORS:
Nicolas Rouleau, Michael Persinger
KEYWORDS:
Excess Correlation, Toroid, Electromagnetism, Gravity, Coriolis-Like Force, Drift Velocity, Hydrogen Line
JOURNAL NAME:
Journal of Electromagnetic Analysis and Applications,
Vol.7 No.2,
February
16,
2015
ABSTRACT: States of
excess correlation have previously been achieved at macroscopic levels by
simultaneously exposing two non-local spaces to weak electromagnetic field
patterns, generated by toroids, presented in a sequence such that the angular
velocity of the field is modulated by changes in frequency over time. Here we
systematically investigated effects upon the local space at the center of a
single toroid generating the excess correlation sequence. The results indicated
that a 1 - 5 nT diminishment in field intensity on the Y- or east-west axis was
characteristic of the excess correlation sequence which was not indicated for
control conditions. Statistically significant shifts in field intensity
approximately 40 to 60 s before the onset of the first field associated with
the excess correlation sequence indicated a temporally non-linear effect which
converged upon the ratio of g and the
rotational velocity of the Earth for the local space where Coriolis-like forces
were inferred. Intensity shifts associated with the excess correlation sequence
but not controls were quantitatively convergent upon parameters of the hydrogen
line (1.42 GHz). Implications for these findings were discussed in relation to
Mach’s principle and, in particular, to the electron as a physical unit which
was found to relate classical and quantum systems.