Controllable influence of the photodielectric effect to process of the submillimeter waves spread in quantum dots structures in an external magnetic field

The registration possibility of the excited states for impurity complexes A + + e (acceptor with an additional hole, which interacts with an electron, localized in the quantum dot ground state) because of their contribution to the dielectric permeability of the semiconductor quasi-zero structure under intraband optical transitions of electrons in an external magnetic field, has been theoretically analyzed. It is shown, that effective control of the photodielectric effect (PDE) by modifying of the electronic adiabatic potential and the electron wave function is possible in an external magnetic field. It is found, that new possibilities for the PDE-control are appeared in an external magnetic field. These effects are important for applications in semiconductive nanoelectronics: for example, for controllable influence on the spread of submillimeter waves in nanostructures; for detectors of infrared — radiation with controllable parameters; for method of the impurities spectroscopic studies in semiconductive nanostructures.