Strain amplification of the 4kF chain charge instability in Sr14Cu24O41

Abstract

We have used resonant soft x-ray scattering (RSXS) to study the misfit strain in Sr14Cu24O41 (SCO), a cuprate that contains both doped spin ladders and spin chains, as well as a "control" sample without holes, La6Ca8Cu24O41 (LCCO). The misfit strain wave in SCO is strongly temperature (T)-dependent and is accompanied by a substantial hole modulation. In LCCO the strain wave is weaker, shows no hole modulation, and is T-independent. The observed strain wave vector, Lc=0.318, is close to the 4kF instability of the chain. Our results indicate that the chain charge order observed in SCO by several groups is a 4kF charge density wave (CDW) amplified by the misfit strain in this material. This demonstrates a new mechanism for CDW formation in condensed matter and resolves several contraversies over the transport properties of SCO.

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