Chemical tuning of a honeycomb magnet through a critical point

Austin M. Ferrenti, Maxime A. Siegler, Shreenanda Ghosh, Xin Zhang, Nina Kintop, Hector K. Vivanco, Chris Lygouras, Thomas Halloran, Sebastian Klemenz, Collin Broholm, Natalia Drichko, and Tyrel M. McQueen

Phys. Rev. B 108, 064433 – Published 30 August 2023

Abstract

${BaCo}_{2} ({AsO}_{4})_{2}$ (BCAO) has seen extensive study since its initial identification as a proximate Kitaev quantum spin liquid candidate. Thought to be described by the highly anisotropic XXZ- $J_{1} − J_{3}$ model, the ease with which magnetic order is suppressed in the system indicates proximity to a spin liquid phase. Upon chemical tuning via partial arsenic substitution with vanadium, we show an initial suppression of long-range incommensurate order in the BCAO system to $T \approx 3.0$ K, followed by increased spin freezing at higher substitution levels. Between these two regions, at around 10% substitution, the system is shown to pass through a critical point where the competing $J_{1} / J_{3}$ exchange interactions become more balanced, producing a more complex magnetic ground state, likely stabilized by quantum fluctuations. This state shows how slight compositional change in magnetically frustrated systems may be leveraged to tune ground state degeneracies and potentially realize a quantum spin liquid state.

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Received 9 May 2023
Revised 2 August 2023
Accepted 15 August 2023

DOI:https://doi.org/10.1103/PhysRevB.108.064433

Physics Subject Headings (PhySH)

Exchange interaction Frustrated magnetism Magnetic phase transitions Magnetic susceptibility Magnetism Spin relaxation

Condensed Matter, Materials & Applied Physics

Authors & Affiliations

Austin M. Ferrenti ^1,2,*, Maxime A. Siegler¹, Shreenanda Ghosh², Xin Zhang³, Nina Kintop⁴, Hector K. Vivanco^1,2, Chris Lygouras ², Thomas Halloran ^2,5, Sebastian Klemenz ⁴, Collin Broholm^2,5, Natalia Drichko², and Tyrel M. McQueen^1,2,6,†

¹Department of Chemistry, The Johns Hopkins University, Baltimore, Maryland 21218, USA
²Institute for Quantum Matter, William H. Miller III Department of Physics and Astronomy, The Johns Hopkins University, Baltimore, Maryland 21218, USA
³Department of Chemical and Biomolecular Engineering, The Johns Hopkins University, Baltimore, Maryland 21218, USA
⁴Fraunhofer Research Institution for Materials Recycling and Resource Strategies IWKS, Aschaffenburger Straße 121, 64357 Hanau, Germany
⁵NIST Center for Neutron Research, Gaithersburg, Maryland 20899, USA
⁶Department of Materials Science and Engineering, The Johns Hopkins University, Baltimore, Maryland 21218, USA

^*aferren2@jhu.edu
^†mcqueen@jhu.edu

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Issue

Vol. 108, Iss. 6 — 1 August 2023

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