npj Quantum Materials (Nov 2024)

Discovery of superconductivity and electron-phonon drag in the non-centrosymmetric Weyl semimetal LaRhGe3

  • Mohamed Oudah,
  • Hsiang-Hsi Kung,
  • Samikshya Sahu,
  • Niclas Heinsdorf,
  • Armin Schulz,
  • Kai Philippi,
  • Marta-Villa De Toro Sanchez,
  • Yipeng Cai,
  • Kenji Kojima,
  • Andreas P. Schnyder,
  • Hidenori Takagi,
  • Bernhard Keimer,
  • Doug A. Bonn,
  • Alannah M. Hallas

DOI
https://doi.org/10.1038/s41535-024-00686-8
Journal volume & issue
Vol. 9, no. 1
pp. 1 – 11

Abstract

Read online

Abstract We present an exploration of the effect of electron-phonon coupling and broken inversion symmetry on the electronic and thermal properties of the semimetal LaRhGe3. Our transport measurements reveal evidence for electron-hole compensation at low temperatures, resulting in a large magnetoresistance of 3000% at 1.8 K and 14 T. The carrier concentration is on the order of 1021/cm3 with high carrier mobilities of 2000 cm2/Vs. When coupled to our theoretical demonstration of symmetry-protected almost movable Weyl nodal lines, we conclude that LaRhGe3 supports a Weyl semimetallic state. We discover superconductivity in this compound with a T c of 0.39(1) K and B c(0) of 2.2(1) mT, with evidence from specific heat and transverse-field muon spin relaxation. We find an exponential dependence in the normal state electrical resistivity below ~50 K, while Seebeck coefficient and thermal conductivity measurements each reveal a prominent peak at low temperatures, indicative of strong electron-phonon interactions. To this end, we examine the temperature-dependent Raman spectra of LaRhGe3 and find that the lifetime of the lowest energy A 1 phonon is dominated by phonon-electron scattering instead of anharmonic decay. We conclude that LaRhGe3 has strong electron-phonon coupling in the normal state, while the superconductivity emerges from weak electron-phonon coupling. These results open up the investigation of electron-phonon interactions in the normal state of superconducting non-centrosymmetric Weyl semimetals.