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Auteurs principaux: Yadav, Priyanka, Sarkar, Sumit, Kumar, Vishal, Singh, Sanjay, Karlsen, Martin A, Etter, Martin, Chowdhury, Sourav, Nandy, Subhajit, Singh, Yogesh
Format: Preprint
Publié: 2026
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Accès en ligne:https://arxiv.org/abs/2601.07379
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author Yadav, Priyanka
Sarkar, Sumit
Kumar, Vishal
Singh, Sanjay
Karlsen, Martin A
Etter, Martin
Chowdhury, Sourav
Nandy, Subhajit
Singh, Yogesh
author_facet Yadav, Priyanka
Sarkar, Sumit
Kumar, Vishal
Singh, Sanjay
Karlsen, Martin A
Etter, Martin
Chowdhury, Sourav
Nandy, Subhajit
Singh, Yogesh
contents Cu$_2$IrO$_3$ is a honeycomb iridate which has been studied recently as a candidate Kitaev quantum spin liquid. Its magnetic ground state however, has been reported to be quantum disordered, spin glassy, or magnetically ordered depending on synthesis details. We have prepared a Cu$_2$IrO$_3$ sample with large antisite disorder and studied in detail its structure (global and local), charge states, and thermodynamic properties to try to quantify and characterize the disorder and its connection to the magnetic ground state. X-ray diffraction, Extended x-ray absorption fine structure(EXAFS) and X-ray pair distribution function analysis revealed a large site disorder ($\sim$25\%), while XPS and XANES reveal mixed valence of Cu and Ir following Cu$^{1+}$ + Ir$^{4+}$ $\rightarrow$ Cu$^{2+}$ + Ir$^{3+}$. This combination of site disorder and charge redistribution generates competing antiferromagnetic interactions and magnetic frustration, resulting in dynamically fluctuating AFM clusters near 80K that freeze below 29K. These results demonstrate the crucial role of synthesis dependent disorder in determining the magnetic ground state of Cu$_2$IrO$_3$.
format Preprint
id arxiv_https___arxiv_org_abs_2601_07379
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Role of Disorder in Governing the Magnetic Properties of Cu2IrO3
Yadav, Priyanka
Sarkar, Sumit
Kumar, Vishal
Singh, Sanjay
Karlsen, Martin A
Etter, Martin
Chowdhury, Sourav
Nandy, Subhajit
Singh, Yogesh
Strongly Correlated Electrons
Cu$_2$IrO$_3$ is a honeycomb iridate which has been studied recently as a candidate Kitaev quantum spin liquid. Its magnetic ground state however, has been reported to be quantum disordered, spin glassy, or magnetically ordered depending on synthesis details. We have prepared a Cu$_2$IrO$_3$ sample with large antisite disorder and studied in detail its structure (global and local), charge states, and thermodynamic properties to try to quantify and characterize the disorder and its connection to the magnetic ground state. X-ray diffraction, Extended x-ray absorption fine structure(EXAFS) and X-ray pair distribution function analysis revealed a large site disorder ($\sim$25\%), while XPS and XANES reveal mixed valence of Cu and Ir following Cu$^{1+}$ + Ir$^{4+}$ $\rightarrow$ Cu$^{2+}$ + Ir$^{3+}$. This combination of site disorder and charge redistribution generates competing antiferromagnetic interactions and magnetic frustration, resulting in dynamically fluctuating AFM clusters near 80K that freeze below 29K. These results demonstrate the crucial role of synthesis dependent disorder in determining the magnetic ground state of Cu$_2$IrO$_3$.
title Role of Disorder in Governing the Magnetic Properties of Cu2IrO3
topic Strongly Correlated Electrons
url https://arxiv.org/abs/2601.07379