# Comment on "Perfect Andreev reflection due to the Klein paradox in a   topological superconducting state (Nature \textbf{570}, 344 (2019))"

**Authors:** Shekhar Das, Kurt Gloos, Yu. G. Naidyuk, and Goutam Sheet

arXiv: 1907.07338 · 2019-07-18

## TL;DR

This paper critically examines claims of Klein tunneling in topological superconductors, arguing that observed conductance enhancements may result from thermal effects rather than true Klein phenomena.

## Contribution

It provides a detailed critique of prior experimental interpretations, emphasizing the importance of transport regime considerations in identifying Klein tunneling signatures.

## Key findings

- Conductance doubling can occur in non-ballistic contacts due to thermal effects.
- The observed data in previous studies may not conclusively indicate Klein tunneling.
- Thermal regime effects can mimic signatures of topological superconductivity.

## Abstract

In a recent publication, Lee $et$ $al.$ discussed experimental observation of Klein tunneling into a proximity-induced topological superconducting state of SmB$_{6}$ through the measurement of Andreev reflection with low-bias conductance doubling across point-contact junctions between sharp Pt-Ir tips and SmB$_{6}$/YB$_{6}$ heterostructures. However, the interpretation of the presented point-contact data is rather ambiguous because observing a low-bias conductance enhancement by a factor of 2 is not special for Klein tunneling into topological superconductors. Such an enhanced conductance can be observed in point contacts between all types of superconductors and normal metals when the contacts are neither in the ballistic nor in the diffusive regimes of mesoscopic transport, but in a dissipative thermal regime. The thermal regime is expected for the point contacts presented in Lee $et$ $al.$ primarily because of the anticipated very short electron mean free path of SmB$_6$ -- we will discuss this in more detail here.

## Full text

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## Figures

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## References

10 references — full list in the complete paper: https://tomesphere.com/paper/1907.07338/full.md

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Source: https://tomesphere.com/paper/1907.07338