Electron swarming in carbon nanostructures

Quantum field chemistry (QFC) conception within the framework of the kinematic electrondensity waves formalism has been applied to the description of corpuscular electron swarming. Interspersed between atoms, electron corpuscular solitary waves organize some g-dimensional lattices.

An energy of the corpuscular electron swarm per single electron was obtained. Estimates of proper equilibrium parameters of g-dimension corpuscular electron swarms allow to examine the possibility of their realization in practical carbon nanostructures. Some models of strong-correlated electron fluid of ordered corpuscular electron systems spreading through interatomic regions inside low-dimensional superfine interfaces and channels in nanostructured materials are discussed. The theory is illustrated by applications to electron confining inside doped fullerence, multilayers of graphite intercalation compounds and carbine.