Electronic correlation effects and Coulomb gap in the Si(111)-(3×3)-Sn surface

Abstract

Electronic transport properties of the Si(111)-(3×3)-Sn surface formed on low doped Si substrates are studied using two-probe conductivity measurements and tunnelling spectroscopy. We demonstrate that the ground state corresponds to Mott-Hubbard insulator with a band gap 2 = 70meV, which vanishes quickly upon temperature increase. The temperature dependence of the surface conductivity above T > 50K corresponds to the Efros-Shklovskii hopping conduction law. The energy gap at the Fermi level observed in tunnelling spectroscopy measurements at higher temperatures could be described in terms of dynamic Coulomb blockade approximation. The obtained localization length of electron is = 7.