Gerhard Münnich, Andrea Donarini, Martin Wenderoth, Jascha Repp
Published 2013-12-11Version 1
In scanning tunneling experiments on semiconductor surfaces, the energy scale within the tunneling junction is usually unknown due to tip-induced band bending. Here, we experimentally recover the zero point of the energy scale by combining scanning tunneling microscopy with Kelvin probe force spectroscopy. With this technique, we revisit shallow acceptors buried in GaAs. Enhanced acceptor-related conductance is observed in negative, zero, and positive band-bending regimes. An Anderson-Hubbard model is used to rationalize our findings, capturing the crossover between the acceptor state being part of an impurity band for zero band bending, and the acceptor state being split off and localized for strong negative or positive band bending, respectively.
Comments: 32 pages, 13 figures
Journal: Physical Review Letters, 111, 216802 (2013)
Bias asymmetry in the conductance profile of magnetic ions on surfaces probed by scanning tunneling microscopy
Atomic structure of Mn wires on Si(001) resolved by scanning tunneling microscopy
Bandgap and doping effects in MoS2 measured by Scanning Tunneling Microscopy and Spectroscopy
![QR code for arXiv:1312.3129 [cond-mat.mes-hall]](http://oss.arxitics.com/images/favicon.svg)