Nature Communications (May 2024)

Semi-classical origin of the extreme magnetoresistance in PtSn4

  • J. Diaz,
  • K. Wang,
  • J. Straquadine,
  • C. Putzke,
  • Qun Yang,
  • Binghai Yan,
  • S. L. Bud’ko,
  • P. C. Canfield,
  • P. J. W. Moll

DOI
https://doi.org/10.1038/s41467-024-48709-z
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 7

Abstract

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Abstract The so-called “extreme magnetoresistance” (XMR) found in few conductors poses interesting conceptual challenges which address needs in technology. In contrast to the more common XMR in semi-metals, PtSn4 stands out as a rare example of a high carrier density multi-band metal exhibiting XMR, sparking an active debate about its microscopic origin. Here we report a sharp sensitivity of its XMR upon the field angle, with an almost complete collapse only for one specific current and field direction (B//b, I//a). Corroborated by band-structure calculations, we identify a singular open orbit on one of its Fermi surface sheets as the origin of this collapse. This remarkably switchable XMR resolves the puzzle in PtSn4 as a semi-classical effect of an ultra-pure, compensated carrier metal. It further showcases the importance of Ockham’s razor in uncommon magnetotransport phenomena and demonstrates the remarkable physical properties conventional metals can exhibit given they are superbly clean.