Coupled frustrated ferromagnetic and antiferromagnetic quantum spin chains in the quasi-one-dimensional mineral antlerite ${\mathrm{Cu}}_{3}{\mathrm{SO}}_{4}$(OH)${}_{4}$

Letter

Coupled frustrated ferromagnetic and antiferromagnetic quantum spin chains in the quasi-one-dimensional mineral antlerite ${Cu}_{3} {SO}_{4}$ (OH) $_{4}$

Anton A. Kulbakov, Denys Y. Kononenko, Satoshi Nishimoto, Quirin Stahl, Aswathi Mannathanath Chakkingal, Manuel Feig, Roman Gumeniuk, Yurii Skourski, Lakshmi Bhaskaran, Sergei A. Zvyagin, Jan Peter Embs, Inés Puente-Orench, Andrew Wildes, Jochen Geck, Oleg Janson, Dmytro S. Inosov, and Darren C. Peets

Phys. Rev. B 106, L020405 – Published 28 July 2022

Abstract

Magnetic frustration, the competition among exchange interactions, often leads to novel magnetic ground states with unique physical properties which can hinge on details of interactions that are otherwise difficult to observe. Such states are particularly interesting when it is possible to tune the balance among the interactions to access multiple types of magnetic order. We present antlerite ${Cu}_{3} {SO}_{4} {(OH)}_{4}$ as a potential platform for tuning frustration. Contrary to previous reports, the low-temperature magnetic state of its three-leg zigzag ladders is a quasi-one-dimensional analog of the magnetic state recently proposed to exhibit spinon-magnon mixing in botallackite. Density functional theory calculations indicate that antlerite's magnetic ground state is exquisitely sensitive to fine details of the atomic positions, with each chain independently on the cusp of a phase transition, indicating an excellent potential for tunability.

Received 28 March 2022
Revised 6 July 2022
Accepted 11 July 2022

DOI:https://doi.org/10.1103/PhysRevB.106.L020405

Physics Subject Headings (PhySH)

Frustrated magnetism Magnetic order

Minerals Single crystal materials

Density functional theory Density matrix renormalization group Electron spin resonance Inelastic neutron scattering Magnetization measurements Neutron diffraction Specific heat measurements X-ray diffraction

Condensed Matter, Materials & Applied Physics

Authors & Affiliations

Anton A. Kulbakov ¹, Denys Y. Kononenko ², Satoshi Nishimoto ^2,3, Quirin Stahl¹, Aswathi Mannathanath Chakkingal¹, Manuel Feig⁴, Roman Gumeniuk ⁴, Yurii Skourski⁵, Lakshmi Bhaskaran ⁵, Sergei A. Zvyagin ⁵, Jan Peter Embs ⁶, Inés Puente-Orench ^7,8, Andrew Wildes ⁸, Jochen Geck ^1,9, Oleg Janson ^2,*, Dmytro S. Inosov ^1,9,†, and Darren C. Peets ^1,‡

¹Institut für Festkörper- und Materialphysik, Technische Universität Dresden, 01069 Dresden, Germany
²Leibniz Institute for Solid State and Materials Research Dresden, 01069 Dresden, Germany
³Institut für Theoretische Physik, Technische Universität Dresden, 01069 Dresden, Germany
⁴Institut für Experimentelle Physik, TU Bergakademie Freiberg, 09596 Freiberg, Germany
⁵Dresden High Magnetic Field Laboratory (HLD-EMFL), Helmholtz-Zentrum Dresden-Rossendorf, 01328 Dresden, Germany
⁶Laboratory for Neutron Scattering and Imaging, Paul Scherrer Institut, 5232 Villigen, Switzerland
⁷Instituto de Nanociencia y Materiales de Aragón (INMA), CSIC-Universidad de Zaragoza, Zaragoza 50009, Spain
⁸Institut Laue-Langevin, 71 Avenue des Martyrs, CS 20156, CEDEX 9, 38042 Grenoble, France
⁹Würzburg-Dresden Cluster of Excellence on Complexity and Topology in Quantum Matter–ct.qmat, Technische Universität Dresden, 01069 Dresden, Germany

^*o.janson@ifw-dresden.de
^†dmytro.inosov@tu-dresden.de
^‡darren.peets@tu-dresden.de

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Vol. 106, Iss. 2 — 1 July 2022

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Physical Review B

covering condensed matter and materials physics

Coupled frustrated ferromagnetic and antiferromagnetic quantum spin chains in the quasi-one-dimensional mineral antlerite ${Cu}_{3} {SO}_{4}$ (OH) $_{4}$

Phys. Rev. B 106, L020405 – Published 28 July 2022

Abstract

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Physical Review B

covering condensed matter and materials physics

Coupled frustrated ferromagnetic and antiferromagnetic quantum spin chains in the quasi-one-dimensional mineral antlerite Cu3SO4(OH)4

Phys. Rev. B 106, L020405 – Published 28 July 2022

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Coupled frustrated ferromagnetic and antiferromagnetic quantum spin chains in the quasi-one-dimensional mineral antlerite ${Cu}_{3} {SO}_{4}$ (OH) $_{4}$