Thermodynamic, dynamic and transport properties of quantum spin liquid   in herbertsmithite from experimental and theoretical point of view

V.R. Shaginyan; A.Z. Msezane; M.Ya. Amusia; J.W. Clark; G.S.; Japaridze; V.A. Stephanovich; Y.S. Leevik

arXiv:1908.10736·cond-mat.str-el·August 29, 2019

Thermodynamic, dynamic and transport properties of quantum spin liquid in herbertsmithite from experimental and theoretical point of view

V.R. Shaginyan, A.Z. Msezane, M.Ya. Amusia, J.W. Clark, G.S., Japaridze, V.A. Stephanovich, Y.S. Leevik

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TL;DR

This paper reviews the thermodynamic, dynamic, and transport properties of the quantum spin liquid state in herbertsmithite, combining experimental observations and theoretical insights to deepen understanding of geometrically frustrated magnetic insulators.

Contribution

It provides a comprehensive overview of the thermodynamic and transport behaviors of herbertsmithite as a quantum spin liquid, integrating experimental data with theoretical analysis.

Findings

01

Identification of characteristic thermodynamic signatures of quantum spin liquid

02

Analysis of transport properties indicating fractionalized excitations

03

Theoretical models explaining experimental observations

Abstract

In our review we focus on the quantum spin liquid, defining the thermodynamic, transport and relaxation properties of geometrically frustrated magnets (insulators) represented by herbertsmithite $ZnC u_{3} (OH)_{6} C l_{2}$ .

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