Pressure-tuning of topological materials

Topological materials attract a huge attention, recently. Their properties are invariant under topological transformations and indicate the existence of Majorana, Weyl and Dirac fermions. External pressure is an ideal and clean tool to tune the properties of topological materials, such as the Weyl semimetals.

In this project, we will combine hydrostatic pressure experiments on electrical transport, such as magnetoresistance and Hall-effect, with microscopic measurements by nuclear magnetic resonance. In that, we will obtain complementary information on the band structure, density of states, on the charge carriers and their mobility, but also on magnetic and superconducting properties. We are in particular interested in materials, such as MoTe₂, where the existence of topological superconducting phases has been proposed..

For this project, we are looking for a PhD student with strong experimental skills, who is interested in experiments under multi-extreme conditions.

References

[1] A. Yazdani, F. von Oppen, B. I. Halperin, A. Yacoby

Hunting for Majoranas

Science 380, eade0850 (2023)

DOI

[2] J. F. Ge, K. M. Bastiaans, D. Chatzopoulos, D. Cho, W. O. Tromp, T. Benschop, J. Niu, G. D. Gu, M. P. Allan

Single-electron charge transfer into putative Majorana and trivial modes in individual vortices

Nature Communications 14, 3341 (2023)

DOI

[3] A. S. Cameron, Y. S. Yerin, Y. V. Tymoshenko, P. Y. Portnichenko, A. S. Sukhanov, M. Ciomaga Hatnean, D. Mc K. Paul, G. Balakrishnan, R. Cubitt, A. Heinemann, D. S. Inosov

Rotation of the magnetic vortex lattice in Ru₇B₃ driven by the effects of broken time-reversal and inversion symmetry

Phys. Rev. B 100, 024518 (2019)

DOI

Pressure-tuning of topological materials

References

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