Title :
Experimental Examination and Physical Understanding of the Coulomb Scattering Mobility in Strained-Si nMOSFETs
Author :
Weber, Olivier ; Takagi, Shinichi
Author_Institution :
CEA-LETI, Grenoble
Abstract :
In this paper, the impact of biaxial tensile strain on the electron mobility limited by Coulomb scattering in inversion layers is experimentally examined. It includes the study of both interface state (Nit) and substrate impurity (Nsub) Coulomb scatterings. Compared with unstrained-Si devices, the mobility limited by Nsub is enhanced in strained-Si nMOSFETs, whereas the mobility limited by Nit is degraded. These new findings are investigated through extensive mobility measurements at various temperatures (50 K-300 K) and surface electric fields. It is found that two key parameters exist for explaining the opposite strain dependence of mobility limited by Nit and Nsub scatterings: One is the valley population, and the other is the distance between inversion layer electrons and the charged centers.
Keywords :
Coulomb blockade; MOSFET; carrier mobility; elemental semiconductors; semiconductor device testing; silicon; Coulomb scattering mobility; Si; biaxial tensile strain; electron mobility; inversion layer electrons; inversion layers; strained-Si nMOSFET; surface electric fields; temperature 50 K to 300 K; valley population; Capacitive sensors; Degradation; Electric variables measurement; Electron mobility; Impurities; Interface states; MOSFETs; Scattering; Temperature measurement; Tensile strain; Heterostructure; MOS devices; MOSFET mobility; mobility enhancement; scattering; silicon; strained-Si MOSFETs;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2008.927388
