S. Madisetti, P. Nagaiah, T. Chidambaram, V. Tokranov, M. Yakimov, S. Oktyabrsky
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Abstract
InGaSb material family with its higher hole transport properties are potential candidates for group III-V CMOS circuits. Understanding of the dominant scattering mechanisms is crucial for the development of future high speed, low power device applications. We present Hall mobility data of p-type InGaSb quantum well (QW) channels and derive the dominant scattering mechanisms related to the interface and trapped charges that degrade mobility in these structures.
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