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High-energy spin excitations in the quantum spin liquid candidate Zn-substituted barlowite probed by resonant inelastic x-ray scattering

Rebecca W. Smaha, Jonathan Pelliciari, Ignace Jarrige, Valentina Bisogni, Aaron Breidenbach, Jack Mingde Jiang, Jiajia Wen, Hong‐Chen Jiang, Young S. Lee

2023Physical review. B./Physical review. B11 citationsDOIOpen Access PDF

Abstract

A quantum spin liquid is a novel ground state that can support long-range entanglement between magnetic moments, resulting in exotic spin excitations involving fractionalized $S=\frac{1}{2}$ spinons. Here, we measure the excitations in single crystals of the spin liquid candidate Zn-barlowite using resonant inelastic x-ray scattering. By analyzing the incident polarization and temperature dependences, we deduce a clear magnetic scattering contribution forming a broad continuum that surprisingly extends up to $\ensuremath{\sim}200$ meV ($\ensuremath{\sim}14J$, where $J$ is the magnetic exchange). The excitation spectrum indicates that significant contributions may arise from multiple pairs of spinons and/or antispinons at high energies. Furthermore, the observation of similar scattering in the hexagonal barlowite parent material above its ordering temperature suggests the presence of similar high-energy excitations, irrespective of the low-energy physics.

Topics & Concepts

SpinonPhysicsResonant inelastic X-ray scatteringQuantum spin liquidCondensed matter physicsScatteringSpin (aerodynamics)ExcitationInelastic scatteringInelastic neutron scatteringAtomic physicsSpin polarizationSpin waveElectronAntiferromagnetismQuantum mechanicsFerromagnetismThermodynamicsAdvanced Condensed Matter PhysicsPhysics of Superconductivity and MagnetismQuantum many-body systems
High-energy spin excitations in the quantum spin liquid candidate Zn-substituted barlowite probed by resonant inelastic x-ray scattering | Litcius