Lund University Publications

III-V nanowires for logics and beyond

• Mark

Abstract

III-V MOSFETs are currently being considered for digital applications, whereas the option to develop the technology for RF-applications is less often discussed. The quality of the semiconductor/high-k interface and the presence of border traps within the high-k film plays an important role in both types of transistors, but given the different sets of transistor metrics, their influence is different although correlated. The high-k technology developed for digital transistors will be applicable also to RE-transistors, while special attention needs to be given the frequency dispersion of the transconductance and the low-frequency noise. Following the natural transistor evolution, III-V nanowires need to be used to maintain electrostatic... (More)

III-V MOSFETs are currently being considered for digital applications, whereas the option to develop the technology for RF-applications is less often discussed. The quality of the semiconductor/high-k interface and the presence of border traps within the high-k film plays an important role in both types of transistors, but given the different sets of transistor metrics, their influence is different although correlated. The high-k technology developed for digital transistors will be applicable also to RE-transistors, while special attention needs to be given the frequency dispersion of the transconductance and the low-frequency noise. Following the natural transistor evolution, III-V nanowires need to be used to maintain electrostatic control at scaled gate lengths. Finally, examples of heterostructure design and circuit implementation are given describing status in the field. (C) 2015 Elsevier B.V. All rights reserved. (Less)