United Quantum Oscillator. Molecular Bond, Graphene, Plasma, Fusion

Flexibility,fragility,emergence of electronic puddles at deformation of graphene are associated with a movement of quantum structures.We used interpretation of quantum mechanics,based on statistical quantum ensembles,and obtained an equation and trajectory for these ensembles,that is, for quantum oscillator,electron orbits which explain reasonably some unusual properties of graphene. In magnetic field,a long-range ordering can be formed by electron structure,named as an united quantum oscillator(UQO),where the number of electrons is correlated with quantum number of oscillator, and the energy per one electron is less than energy of valence electron.This energy difference grows with number of these electrons (as if UQO "attracts" them).This could explain the high conductivity,disorder length scale,formation of clusters: electronic puddles,molecular bond,formation of even a relatively small nebula in space,or of different plasma instabilities which can be as the center of nucleosynthesis.Conditions to start of nucleosynthesis are discussed.Our results could be addressed to students,astrophysicists,experts in nuclear fusion,creators of nanomaterials with desired properties.