Signatures of topology in ballistic bulk transport of HgTe quantum wells

Abstract: We calculate bulk transport properties of two-dimensional topological insulators based on HgTe quantum wells in the ballistic regime. Interestingly, we find that the conductance and the shot noise are distinctively different for the so-called normal regime (the topologically trivial case) and the so-called inverted regime (the topologically non-trivial case). Thus, it is possible to verify the topological order of a two-dimensional topological insulator not only via observable edge properties but also via obse… Show more

“…We will refer to it as mini-gap from here on. One can notice that outside of the bulk gap (solid lines) the signals of the normal and the inverted regimes behave similar, like it was found for wide structures 12,13 . Within the gap however and for the PBC, a clear conductance peak in the inverted regime around E f = 0 is seen, while in the normal regime the transport is almost completely suppressed.…”

“…it was found for wide structures 12,13 . Within the gap however and for the PBC, a clear conductance peak in the inverted regime around E f = 0 is seen, while in the normal regime the transport is almost completely suppressed.…”

“…(13). Our analysis will focus on the lowest modes in PBC and HBC, which give the largest contribution to the signal.…”

“…To analyze the influence of disorder let us here vary the sample structure and the parameters, similarly as it was performed for PBC in Ref. 13. First we decrease the width of the sample to 150 nm.…”

“…12 that a non-monotonic conductance as a function of geometrical aspect ratio in metal/HgTe/metal junctions with a characteristic maximum describes the topological insulator regime. The conductance maximum occurs when incoming metallic bulk states tunnel through a short and wide two-dimensional topological insulator and is robust against scalar disorder on the order of the energy gap 13 . However, so far this analysis was limited to the periodic boundary conditions (PBC) and neglected the existence of edge states, which can significantly modify the behavior in experimentally relevant setups.…”

Interplay of bulk and edge states in transport of two-dimensional topological insulators

“…We will refer to it as mini-gap from here on. One can notice that outside of the bulk gap (solid lines) the signals of the normal and the inverted regimes behave similar, like it was found for wide structures 12,13 . Within the gap however and for the PBC, a clear conductance peak in the inverted regime around E f = 0 is seen, while in the normal regime the transport is almost completely suppressed.…”

“…it was found for wide structures 12,13 . Within the gap however and for the PBC, a clear conductance peak in the inverted regime around E f = 0 is seen, while in the normal regime the transport is almost completely suppressed.…”

“…(13). Our analysis will focus on the lowest modes in PBC and HBC, which give the largest contribution to the signal.…”

“…To analyze the influence of disorder let us here vary the sample structure and the parameters, similarly as it was performed for PBC in Ref. 13. First we decrease the width of the sample to 150 nm.…”

“…12 that a non-monotonic conductance as a function of geometrical aspect ratio in metal/HgTe/metal junctions with a characteristic maximum describes the topological insulator regime. The conductance maximum occurs when incoming metallic bulk states tunnel through a short and wide two-dimensional topological insulator and is robust against scalar disorder on the order of the energy gap 13 . However, so far this analysis was limited to the periodic boundary conditions (PBC) and neglected the existence of edge states, which can significantly modify the behavior in experimentally relevant setups.…”

Interplay of bulk and edge states in transport of two-dimensional topological insulators