Title :
Optimization of high current density resonant tunneling diodes for terahertz emitters
Author :
R. Baba;K. J. P. Jacobs;B. J. Stevens;R. A. Hogg;T. Mukai;D. Ohnishi
Author_Institution :
Department of Electronic & Electrical Engineering, University of Sheffield, Centre for Nanoscience & Technology Sheffield, United Kingdom
Abstract :
We discuss the numerical simulation of high current density InGaAs/AlAs/InP resonant tunneling diodes with a view to their optimization for application as THz emitters. We introduce a figure of merit based upon the ratio of maximum extractable THz power and the electrical power developed in the chip. The aim being to develop high efficiency emitters as output power is presently limited by catastrophic failure. A description of the interplay of key parameters follows. We propose an optimized structure utilizing thin barriers paired with a comparatively wide quantum well.
Keywords :
"Resonant tunneling devices","Current density","Oscillators","Strain","Epitaxial growth","Indium","Semiconductor diodes"
Conference_Titel :
Millimeter Waves and THz Technology Workshop (UCMMT), 2015 8th UK, Europe, China
DOI :
10.1109/UCMMT.2015.7460581
