Effects of charge doping on Mott insulator with strong spin-orbit coupling, Ba2Na1−xCaxOsO6

Rong Cong, Erick Garcia, Paola C. Forino, Anna Tassetti, Giuseppe Allodi, Arneil P. Reyes, Phoung M. Tran, Patrick M. Woodward, Cesare Franchini, Samuele Sanna (Korresp. Autor*in), Vesna F. Mitrović (Korresp. Autor*in)

Veröffentlichungen: Beitrag in FachzeitschriftArtikelPeer Reviewed

Abstract

The effects of doping on the electronic evolution of the Mott insulating state have been extensively studied in efforts to understand mechanisms of emergent quantum phases of materials. The study of these effects becomes ever more intriguing in the presence of entanglement between spin and orbital degrees of freedom. Here, we present a comprehensive investigation of charge doping in the double perovskite Ba2NaOsO6, a complex Mott insulator where such entanglement plays an important role. We establish that the insulating magnetic ground state evolves from canted antiferromagnet (cAFM) [Lu et al., Nat. Commun. 8, 14407 (2017)] to Néel order for dopant levels exceeding ≈10%. Furthermore, we determine that a broken local point symmetry (BLPS) phase, precursor to the magnetically ordered state, occupies an extended portion of the (H−T) phase diagram with increased doping. This finding reveals that the breaking of the local cubic symmetry is driven by a multipolar order, most likely of the antiferro-quadrupolar type [Khaliullin et al., Phys. Rev. Res. 3, 033163 (2021); Churchill and Kee, Phys. Rev. B 105, 014438 (2022)]. Future dynamical measurements will be instrumental in determination of the precise nature of the identified multipolar order.
OriginalspracheEnglisch
Aufsatznummer084409
Seitenumfang16
FachzeitschriftPhysical Review Materials
Jahrgang7
Ausgabenummer8
DOIs
PublikationsstatusVeröffentlicht - Aug. 2023

ÖFOS 2012

  • 103017 Magnetismus
  • 103018 Materialphysik

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