Experimental Evidence of Sidewall Enhanced Transport Properties of Mesa-Isolated (001) Germanium, On-Insulator pMOSFETs.

In this brief, the hole transport properties of narrow-width germanium-on-insulator (GeOI) pMOSFETs are investigated. We report, for the first time, +65% low-field hole mobility enhancement in narrow-width (0.29-µm effective width W_eff) versus large-width (10-µm W_eff) GeOI mesa-isolated devices. The observed enhancement, which is independent of the device length down to 90 nm, is attributed to improved sidewall transport properties resulting in higher hole mobility on the sides than on the top of the devices. At high inversion charge density N_inv ~ 10¹³ cm^-2, +55% hole effective mobility improvement is preserved. The top and side low-field mobilities (µ_top and µ_side, respectively) were extracted, showing +90% mobility improvement at the sides (µ_top = 125 cm²/V ⋅ s^-1 and µ_side; = 240 cm²/V ⋅ s^-1). [ABSTRACT FROM AUTHOR]