Communications Materials (Jul 2024)

Perturbation-tuned triple spiral metamagnetism and tricritical point in kagome metal ErMn6Sn6

  • Satya Shanmukharao Samatham,
  • Jacob Casey,
  • Adrienn Maria Szucs,
  • Venkateswara Yenugonda,
  • Christopher Burgio,
  • Theo Siegrist,
  • Arjun K. Pathak

DOI
https://doi.org/10.1038/s43246-024-00552-x
Journal volume & issue
Vol. 5, no. 1
pp. 1 – 10

Abstract

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Abstract Kagome materials are of topical interest for their diverse quantum properties linked with correlated magnetism and topology. Here, we report anomalous hydrostatic pressure (p) effect on ErMn6Sn6 through isobaric and isothermal-isobaric magnetization measurements. Magnetic field (H) suppresses antiferromagnetic T N while simultaneously enhancing the ferrimagnetic T C by exhibiting dual metamagnetic transitions, arising from the triple-spiral-nature of Er and Mn spins. Counter-intuitively, pressure enhances both T C and T N with a growth rate of 74.4 K GPa−1 and 14.4 K GPa−1 respectively. Pressure unifies the dual metamagnetic transitions as illustrated through p-H phase diagrams at 140 and 200 K. Temperature-field-pressure (T-H, T-p) phase diagrams illustrate distinct field- and pressure-induced critical points at (T cr = 246 K, H cr = 23.3 kOe) and (T cr = 435.8 K, p cr = 4.74 GPa) respectively. An unusual increase of magnetic entropy by pressure around T cr and a putative pressure-induced tricritical point pave a unique way of tuning the magnetic properties of kagome magnets through simultaneous application of H and p.