Abstract
The frequency dispersion of the maximum capacitance of GaAs metal-oxide-semiconductor (MOS) capacitors is studied. The frequency dispersion behavior observed in the capacitance-voltage characteristics of GaAs MOS capacitors is a result of low semiconductor capacitance and an interface-state capacitance that varies with frequency. The traditional approach for calculating interface-state capacitance does not result in frequency dispersion of the maximum capacitance. An interface-state capacitance model based on an extremely high number of interface states in a thin disordered interfacial region is presented to explain the frequency dispersion behavior. The model shows an excellent match with the experimental results. The model also suggests that maximum capacitance values in low-frequency capacitance-voltage characteristics may be determined by the capacitance associated with the interface traps rather than the semiconductor charge and does not necessarily indicate the presence of free carriers.
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