We describe and discuss the similarites in two different kinds of physical systems: Chua's circuit (and, broadly speaking, chaotic systems) and atoms in the Periodic Table. We analyze the regularities arising from the chaotic nature of the former against the regularities in the energy spectra of the second. We show the existing analogies among the Bohr's law and the bifurcation diagram building a map connecting each energy level in atoms to each point in the bifurcation diagram in the parameter space. We found a general rule valid for many element of the Periodic Table by calculating the two-dimensional bifurcation diagram versus Bohr's law. The result is a one-to-one correspondence between atoms and nonlinear Chua's circuits. Finally we discuss possible implications of the model when applied to more complicated systems like molecules or atomic clusters.
From bifurcations to Chua's periodic table
Tonelli, Roberto;Meloni, Franco
2002-01-01
Abstract
We describe and discuss the similarites in two different kinds of physical systems: Chua's circuit (and, broadly speaking, chaotic systems) and atoms in the Periodic Table. We analyze the regularities arising from the chaotic nature of the former against the regularities in the energy spectra of the second. We show the existing analogies among the Bohr's law and the bifurcation diagram building a map connecting each energy level in atoms to each point in the bifurcation diagram in the parameter space. We found a general rule valid for many element of the Periodic Table by calculating the two-dimensional bifurcation diagram versus Bohr's law. The result is a one-to-one correspondence between atoms and nonlinear Chua's circuits. Finally we discuss possible implications of the model when applied to more complicated systems like molecules or atomic clusters.
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