4 research outputs found
Control over epitaxy and the role of the InAs/Al interface in hybrid two-dimensional electron gas systems
In-situ synthesised semiconductor/superconductor hybrid structures became an
important material platform in condensed matter physics. Their development
enabled a plethora of novel quantum transport experiments with focus on Andreev
and Majorana physics. The combination of InAs and Al has become the workhorse
material and has been successfully implemented in the form of one-dimensional
structures and two-dimensional electron gases. In contrast to the
well-developed semiconductor parts of the hybrid materials, the direct effect
of the crystal nanotexture of Al films on the electron transport still remains
unclear. This is mainly due to the complex epitaxial relation between Al and
the semiconductor. We present a study of Al films on shallow InAs
two-dimensional electron gas systems grown by molecular beam epitaxy, with
focus on control of the Al crystal structure. We identify the dominant grain
types present in our Al films and show that the formation of grain boundaries
can be significantly reduced by controlled roughening of the epitaxial
interface. Finally, we demonstrate that the implemented roughening does not
negatively impact either the electron mobility of the two-dimensional electron
gas or the basic superconducting properties of the proximitized system.Comment: 12 pages, 7 figures and supplementary materia