TL;DR
This paper proposes that biological growth processes can be modeled as macroscopic quantum phenomena with space-like supersymmetric properties, linking biological growth and supersymmetric quantum mechanics.
Contribution
It introduces a novel framework connecting biological growth models with supersymmetric quantum mechanics, revealing supersymmetric effects in biological systems.
Findings
Biological growth modeled via supersymmetric quantum mechanics.
Identification of fermion-boson conversion analogue in biology.
Growth-regression transformation linked to supersymmetric effects.
Abstract
The growth of biological systems described by the Gompertz and West-Brown-Enquist functions is considered in the framework of the space-like supersymmetric quantum mechanics. It has been shown that the supersymmetric effect of a fermion-boson conversion has a biological analogue in the phenomenon of a growth-regression transformation under the influence of a cycle-non-specific drug of a constant concentration. The results obtained reveal that the biological growth can be viewed as the macroscopic quantum phenomenon endowed with the space-like supersymmetric properties not established so far in the domain of biology and medicine.
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Taxonomy
TopicsQuantum Mechanics and Applications · Biofield Effects and Biophysics