D. V. Lavrukhin, A. E. Yachmenev, R. R. Galiev, R. A. Khabibullin, D. S. Ponomarev, Yu. V. Fedorov, P. P. Maltsev, “MHEMT with a power-gain cut-off frequency of $f_{\mathrm{max}}$ = 0.63 THz on the basis of a In$_{0.42}$Al$_{0.58}$As/In$_{0.42}$Ga$_{0.58}$As/In$_{0.42}$Al$_{0.58}$As/GaAs nanoheterostructure”, Fizika i Tekhnika Poluprovodnikov, 2014, Volume 48, Issue 1,Pages 73

This article is cited in 18 papers

Semiconductor physics

MHEMT with a power-gain cut-off frequency of $f_{\mathrm{max}}$ = 0.63 THz on the basis of a In$_{0.42}$Al$_{0.58}$As/In$_{0.42}$Ga$_{0.58}$As/In$_{0.42}$Al$_{0.58}$As/GaAs nanoheterostructure

D. V. Lavrukhin, A. E. Yachmenev, R. R. Galiev, R. A. Khabibullin, D. S. Ponomarev, Yu. V. Fedorov, P. P. Maltsev

V. G. Mokerov Institute of Ultra High Frequency Semiconductor Electronics of RAS, Moscow

Abstract: The method of molecular-beam epitaxy is used to grow a In$_{0.42}$Al$_{0.58}$As/In$_{0.42}$Ga$_{0.58}$As/In$_{0.42}$Al$_{0.58}$As nanoheterostructure with a step-graded metamorphic buffer on a GaAs substrate. The root-mean-square value of the surface roughness is 3.1 nm. A MHEMT (metamorphic high-electron-mobility transistor) with a zigzag-like gate of a length of 46 nm is fabricated on the basis of this nanoheterostructure; for this MHEMT, the cutoff frequencies for the current and power gain are $f_T$ = 0.13 THz and $f_{\mathrm{max}}$ = 0.63 THz, respectively.

Received: 10.04.2013
Accepted: 16.04.2013