A new self-consistent technique is proposed to simultaneously extract the density of interface traps (DO and flat-band voltages of MOS structures fabricated on technologically relevant high-mobility semiconductors with arbitrary combination of gate stacks. The technique is based on novel analysis of the low-frequency C-V measurement. The two major problems associated with the existing low-frequency C-V technique for arbitrary substrate/oxide combinations are resolved by (i) accurate calculation of the ideal semiconductor capacitance using a self-consistent, quantum-mechanical model including wave function penetration effect, and (ii) accurate determination of the flat-band voltage utilizing an iterative scheme. The proposed technique has been applied to extract D(it) profiles of a number of MOS structures fabricated on III-V semiconductors like InGaAs (with ALD grown Al(2)O(3) gate dielectric) and elemental semiconductors like Ge (with GeON gate dielectric). The advantages of the proposed technique have been demonstrated by comparing with D(it) profiles extracted from other capacitor-based extraction methods.

• 出版日期2011-2