On the Nature of the Increase in the Electron Mobility in the Inversion Channel at the Silicon–Oxide Interface after the Field Effect

The conduction characteristics of the inversion channel of Si-transistor structures after the ionic polarization and depolarization of samples are measured in (0–5)-T transverse magnetic fields at temperatures from 100 to 200 K. After ionic polarization in a strong electric field at 420 K, no less than 6 × 10¹³ cm^–2 ions flowed through the oxide. The previously found tenfold increase in the conductivity in the source–drain circuit after the polarization of insulating layers is explained by the formation of a new electron transport path along the surface impurity band, related to delocalized D^– states; these states are generated by neutralized ions located in the insulating layer at its interface with the semiconductor.