# Yanson point-contact spectroscopy of Weyl semimetal WTe2

**Authors:** Yu. G. Naidyuk, D. L. Bashlakov, O.E. Kvitnitskaya, S. Aswartham, I., V. Morozov, I. O. Chernyavskii, G. Shipunov, G. Fuchs, S.-L. Drechsler, R., H\"uhne, K. Nielsch, B. B\"uchner, D. V. Efremov

arXiv: 1902.11037 · 2020-01-13

## TL;DR

This study uses point contact spectroscopy to explore the electron-phonon interaction and potential surface superconductivity in WTe2, revealing characteristic phonon peaks, possible topological superconductivity, and electronic state manipulation.

## Contribution

It provides new experimental data on WTe2's electron-phonon spectra and suggests the existence of surface superconductivity linked to its topological properties.

## Key findings

- Main phonon peak around 8 meV
- Detection of tiny superconducting features near zero bias
- Conductivity change from metallic to semiconducting at high voltages

## Abstract

We carried out point contact (PC) investigation of WTe2 single crystals. We measured Yanson d2V/dI2 PC spectra of the electron-phonon interaction (EPI) in WTe2. The spectra demonstrate a main phonon peak around 8 meV and a shallow second maximum near 16 meV. Their position is in line with the calculation of the EPI spectra of WTe2 in the literature, albeit phonons with higher energy are not resolved in our PC spectra. An additional contribution to the spectra is present above the phonon energy, what may be connected with the peculiar electronic band structure and need to be clarified. We detected tiny superconducting features in d2V/dI2 close to zero bias, which broadens by increasing temperature and blurs above 6K. Thus, (surface) superconductivity may exist in WTe2 with a topologically nontrivial state. We found a broad maximum in dV/dI at large voltages (>200 mV) indicating change of conductivity from metallic to semiconducting type. The latter might be induced by the high current density (~10^8 A/cm^2) in the PC and/or local heating, thus enabling the manipulation of the quantum electronic states at the interface in the PC core.

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Source: https://tomesphere.com/paper/1902.11037