We study the extended dynamics and laser emission of randomly distributed nanoemitters
incorporated to a three-dimensional (3D) array of dispersing single-walled carbon …

We study the optical field generated by nanoemitters incorporated in a three‐dimensional
percolation system, where the probability p of pore occupation is well above the threshold …

We systematically study the optical field localization in an active three-dimensional (3D)
disordered percolating system with light nanoemitters incorporated in percolating clusters …

We systematically study the percolation phase transition at the change of concentration of
the chaotic defects (pores) in an extended system where the disordered defects additionally …

We study the optical Anderson localization associated with the properties of three-
dimensional (3D) disordered percolation system, where the percolating clusters are filled by …

We systematically study the Cherenkov optical emission by a nonrelativistic charge
uniformly moving in parallel to surface of a photonic crystal by the FDTD simulations. It is …

Capturing the energy of fast charged particles by nanostructures opens up access to new
affordable and environmentally friendly solutions in the field of energy. However, the …

En este trabajo se estudia el efecto láser sin espejos, el láser aleatorio de percolación en
3D. La diferencia con láser convencional es que el láser aleatorio contiene estructuras …

Construimos una red neuronal (RN) que simula el efecto de percolación para el caso de
sistemas 2D utilizando una red neuronal supervisada. Creamos una base de datos (DB) …

We study a dynamic three‐dimensional (3D) field localized states in a medium with
percolation disorder, where the percolation cluster is filled by the active nanoemitters. In …