N. V. Sibirev, A. D. Bouravlev, Yu. M. Trushkov, D. V. Beznasyuk, Yu. B. Samsonenko, G. È. Cirlin, “Effect of an arsenic flux on the molecular-beam epitaxy of self-catalytic (Ga,Mn)As nanowire crystals”, Fizika i Tekhnika Poluprovodnikov, 2013, Volume 47, Issue 10,Pages <nobr>1425

This article is cited in 2 papers

Manufacturing, processing, testing of materials and structures

Effect of an arsenic flux on the molecular-beam epitaxy of self-catalytic (Ga,Mn)As nanowire crystals

N. V. Sibirev^abc, A. D. Bouravlev^abd, Yu. M. Trushkov^ab, D. V. Beznasyuk^ab, Yu. B. Samsonenko^abd, G. È. Cirlin^abcd

^a Ioffe Institute, St. Petersburg
^b St. Petersburg Academic University — Nanotechnology Research and Education Centre of the Russian Academy of Sciences (the Academic University)
^c Saint Petersburg State University
^d Institute for Analytical Instrumentation, Russian Academy of Sciences, St. Petersburg

Abstract: The effect of an arsenic flux on the growth rate of self-catalytic (Ga,Mn)As nanowire crystals is studied. It is shown that, at low arsenic fluxes, nanowire-crystal growth is limited by the crystallization rate of the material below the droplet. However, at high arsenic fluxes, the growth kinetics are controlled by gallium transport into the droplet. It is experimentally demonstrated that, at low arsenic fluxes, the dependence of the nanowire length on the nanowire diameter is a steadily increasing function adequately described by Givargizov–Chernov’s model. At the same time, a steadily decreasing diffusion dependence is observed at high arsenic fluxes.

Received: 18.02.2013
Accepted: 25.02.2013