Tuning Charge Order in κ-(BEDT-TTF)2Hg(SCN)2X (X=Br, Cl) via Uniaxial Strain

Abstract

In condensed matter physics, experimental control over material properties reflects a deep understanding of the underlying physics. In recent years, meaningful progress has been made towards a description of the physics of correlated electron systems, but examples of control of these systems remain rare. In this work, we confirm a phase diagram theoretically proposed for organic Mott insulators. We use κ-(BEDT-TTF)2Hg(SCN)2X (X=Br,Cl) (BEDT-TTF = bis(ethylenedithio)tetrathiafuvalene) materials as experimental realization of the proposed model and demonstrate the ability to tune them both ways across a phase border between a Mott insulator with a uniformly distributed charge and a charge ordered state through the application of uniaxial strain. We induce charge order at 33 K in the quantum dipole liquid material κ-(BEDT-TTF)2Hg(SCN)2Br through the application of tensile strain of 0.4% along the c-axis. We suppress charge order down to 10 K in κ-(BEDT-TTF)2Hg(SCN)2Cl by applying a tensile strain of 1.6% along the b-axis. We use Raman scattering spectroscopy to probe the charge state through analysis of charge sensitive molecular vibrations and a low frequency mode of collective dipole fluctuations close to the phase border.

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