TY  - JOUR
AU  - Just, Sven
AU  - Soltner, Helmut
AU  - Korte, Stefan
AU  - Cherepanov, Vasily
AU  - Voigtländer, Bert
TI  - Surface conductivity of Si(100) and Ge(100) surfaces determined from four-point transport measurements using an analytical N -layer conductance model
JO  - Physical review / B
VL  - 95
IS  - 7
SN  - 2469-9950
CY  - Woodbury, NY
PB  - American Physical Society
M1  - FZJ-2017-01960
SP  - 075310
PY  - 2017
AB  - An analytical N-layer model for charge transport close to a surface is derived from the solution of Poisson's equation and used to describe distance-dependent electrical four-point measurements on the microscale. As the N-layer model comprises a surface channel, multiple intermediate layers, and a semi-infinite bulk, it can be applied to semiconductors in combination with a calculation of the near-surface band bending to model very precisely the measured four-point resistance on the surface of a specific sample and to extract a value for the surface conductivity. For describing four-point measurements on sample geometries with mixed 2D-3D conduction channels, often a very simple parallel-circuit model has so far been used in the literature, but the application of this model is limited, as there are already significant deviations, when it is compared to the lowest possible case of the N-layer model, i.e., the three-layer model. Furthermore, the N-layer model is applied to published distance-dependent four-point resistance measurements obtained with a multitip scanning tunneling microscope (STM) on germanium(100) and silicon(100) with different bulk doping concentrations resulting in the determination of values for the surface conductivities of these materials.
LB  - PUB:(DE-HGF)16
UR  - <Go to ISI:>//WOS:000395989400010
DO  - DOI:10.1103/PhysRevB.95.075310
UR  - https://juser.fz-juelich.de/record/827877
ER  -