V. G. Dubrovskii, R. R. Reznik, N. V. Kryzhanovskaya, I. V. Shtrom, E. D. Ubyivovk, I. P. Soshnikov, G. E. Cirlin, “MBE-grown In<nobr>$_x$</nobr> Ga<nobr>$_{1-x}$</nobr> As nanowires with 50% composition”, Fizika i Tekhnika Poluprovodnikov, 2020, Volume 54, Issue 6,Page 542

This article is cited in 2 papers

Semiconductor structures, low-dimensional systems, quantum phenomena

MBE-grown In$_x$ Ga$_{1-x}$ As nanowires with 50% composition

V. G. Dubrovskii^a, R. R. Reznik^abcd, N. V. Kryzhanovskaya^b, I. V. Shtrom^cd, E. D. Ubyivovk^d, I. P. Soshnikov^b, G. E. Cirlin^abce

^a ITMO University, 197101 St. Petersburg, Russia
^b Alferov University, 194021 St. Petersburg, Russia
^c Institute for Analytical Instrumentation, Russian Academy of Sciences, 190103 St. Petersburg, Russia
^d St. Petersburg State University, 199034 St. Petersburg, Russia
^e St. Petersburg Electrotechnical University "LETI", 197376 St. Petersburg, Russia

Abstract: In a particular case of Au-catalyzed In$_x$ Ga$_{1-x}$ As nanowires, wide compositional tuning has been obtained using metal organic vapor-phase epitaxy, which remains difficult for molecular beam epitaxy. In$_x$ Ga$_{1-x}$ As nanowires are demonstrated with $x$ = 0.5, grown by Au-catalyzed molecular beam epitaxy via the vapor–solid–solid mode at a low temperature of 220$^\circ$C. Low-temperature growth suppresses re-evaporation of indium and gallium atoms and their surface diffusion, which is why the composition of ternary nanowires is precisely determined by the indium content in vapor. This method can be used for compositional tuning of other ternary III–V and III–N nanowires grown by molecular beam epitaxy.

Keywords: InGaAs nanowires, composition, miscibility gap, molecular beam epitaxy.

Received: 03.02.2020
Revised: 11.02.2020
Accepted: 17.02.2020

Language: English