BIOLOGICAL INTERACTIONS WITH SCALAR ENERGY CELLULAR MECHANISMS OF ACTION, 2000

Dr. Glen Rein, Stanford University Medical Center Stanford, CA

FROM THE PROC. 7JH INTERNAL. ASSOC. PSYCHOJRONICS RES., GEORGE, DEC., 198B

Abstract

Recent direct experimental data as well as sophisticated computer-enhanced mathematical analyses of preexisting data has revealed the predominance-of non-linear processes in biological systems . These new findings are a dramatic departure from traditional theories which indicate that biochemical reactions are at or near a state of equilibrium and that cells function in a linear, dispersive and degenerative manner. Electrochemical oscillations between membrane-bound lipids near phase-transition temperature have been reanalyzed with the aid of powerful computers and shown to be most accurately described by nonlinear quantum mechanical equations(2). Similaranalyses of coupling between harmonic oscillators represented by action potentials generated from active neuronal networks in the central nervous system has revealed-their- non-linear nature(3). Several types•of·quasi-partioles, each with their own characteristic resonant frequencies, have been proposed to mediate these non-linear
phenomenon, including solitons, excitons and plasmons.