The last paper entitled “Dynamic Symmetry in Dozy-Chaos Mechanics”, by Vladimir
V. Egorov presents all kinds of dynamic symmetries in dozy-chaos (quantum-classical)
mechanics by taking into account the chaotic dynamics of the joint electron-nuclear motion in the transient state of molecular “quantum” transitions. The reason for the emergence of chaotic dynamics is associated with a certain new
... [Show full abstract] property of electrons, consisting in the provocation of chaos (dozy chaos) in a transient state, which appears in them as a result of
the binding of atoms by electrons into molecules and condensed matter and which provides the possibility of reorganizing a very heavy nuclear subsystem as a result of transitions of light electrons. Various dynamic symmetries appearing in theory are associated with the emergence of dynamic organization in electronic-vibrational transitions, in particular with the emergence of an electron-nuclear-reorganization resonance (the so-called Egorov
resonance) and its antisymmetric (chaotic) “twin”, with direct and reverse transitions, as
well as with different values of the electron-phonon interaction in the initial and final states of the system. All these dynamic symmetries are investigated using the simplest example of quantum-classical mechanics, namely, the example of quantum-classical mechanics of elementary electron-charge transfers in condensed media [14].