Title :
Accumulation-mode GAA Si NW nFET with sub-5 nm cross-section and high uniaxial tensile strain
Author :
Najmzadeh, Mohammad ; Bouvet, Didier ; Grabinski, Wladek ; Ionescu, Adrian M.
Author_Institution :
Nanoelectronic Devices Lab., Swiss Fed. Inst. of Technol. (EPFL), Lausanne, Switzerland
Abstract :
In this work we report dense arrays of highly doped gate-all-around Si nanowire accumulation-mode nMOS-FETs with sub-5 nm cross-sections. The integration of local stressor technologies (both local oxidation and metal-gate strain) to achieve ≥2.5 GPa uniaxial tensile stress is reported for the first time. The deeply scaled Si nanowire shows low-field electron mobility of 332 cm2/V.s at room temperature, 32% higher than bulk mobility at the equivalent high channel doping. The conduction mechanism as well as high temperature performance was studied based on the electrical characteristics from room temperature up to ≈400 K and a VTH drift of -1.72 mV/K, VFB drift of -3.04 mV/K and an ion impurity scattering-based mobility reduction were observed.
Keywords :
MOSFET; electron mobility; elemental semiconductors; impurity scattering; nanowires; silicon; Si; bulk mobility; electrical characteristics; equivalent high channel doping; gate-all-around nanowire accumulation-mode nMOSFET; high temperature performance; high uniaxial tensile stress; ion impurity scattering-based mobility reduction; local oxidation; local stressor technologies; low-field electron mobility; metal-gate strain; size 5 nm; temperature 293 K to 298 K; Logic gates; MOSFETs; Silicon; Temperature; Tensile stress; Threshold voltage; Tin;
Conference_Titel :
Solid-State Device Research Conference (ESSDERC), 2011 Proceedings of the European
Conference_Location :
Helsinki
Print_ISBN :
978-1-4577-0707-0
Electronic_ISBN :
1930-8876
DOI :
10.1109/ESSDERC.2011.6044172
