Low-Energy Excitations in the Quantum Spin-Liquid -(BEDT-TTF)2Cu2(CN)3

Abstract

The electrodynamic response of the organic spin-liquid candidate -(BEDT-TTF)2Cu2(CN)3 has been measured in an extremely wide energy range (10-13 to 2 eV) as a function of temperature (5 to 300 K). Below the Mott gap, excitations from the un-gapped spinon continuum cause a considerable contribution to the infrared conductivity, as suggested by the U(1) gauge theory. At THz frequencies we can identify a power-law behavior σ(ω) ωβ with two distinct exponents β that change from 0.9 to 1.3 at low temperatures. The corresponding crossover scales with temperature: ωc ≈ kB T. The observed exponents differ by more than a factor of 2 from the theoretically predicted ones. The findings are compared with those obtained on Herbertsmithites.