Аннотация:
We experimentally investigate electron transport through the interface between
a superconductor and the edge of a two-dimensional electron system with band
inversion. The interface is realized as a tunnel NbN side contact to a narrow
$8$ nm HgTe quantum well. It demonstrates a typical Andreev behavior with finite
conductance within the superconducting gap. Surprisingly, the conductance is
modulated by a number of equally-spaced oscillations. The oscillations are
present only within the superconducting gap and at lowest, below $1$ K,
temperatures. The oscillations disappear completely in magnetic fields, normal
to the two-dimensional electron system plane. In contrast, the oscillations'
period is only weakly affected by the highest, up to $14$ T, in-plane oriented
magnetic fields. We interpret this behavior as the interference oscillations in
a helical one-dimensional edge channel due to a proximity with a superconductor.