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Phonon renormalization in the Kitaev quantum spin liquid

Alexandros Metavitsiadis, Wolfram Brenig

2020Physical review. B./Physical review. B40 citationsDOIOpen Access PDF

Abstract

We study the self-energy of phonons, magnetoelastically coupled to the two-dimensional Kitaev spin model on the honeycomb lattice. Fractionalization of magnetic moments into mobile Majorana matter and a static ${\mathbb{Z}}_{2}$ gauge field lead to a continuum of relaxation processes comprising two channels. Thermal flux excitations, which act as an emergent disorder, strongly affect the phonon renormalization. Above the flux proliferation temperature, the dispersion of a narrow quasiparticle-hole channel is suppressed in favor of broad and only weakly momentum-dependent features, covering large spectral ranges. Our analysis is based on complementary calculations in the low-temperature homogeneous gauge and a mean-field treatment of thermal gauge fluctuations, valid at intermediate and high temperatures.

Topics & Concepts

RenormalizationPhysicsPhononCondensed matter physicsQuantum spin liquidQuantumSpin (aerodynamics)Density matrix renormalization groupQuantum mechanicsSpin polarizationElectronThermodynamicsAdvanced Condensed Matter PhysicsPhysics of Superconductivity and MagnetismTopological Materials and Phenomena
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