Order Parameter "Holes" and Theory of Microwave Conductivity in YBCO

Matthias H. Hettler (Argonne National Laboratory); Peter J.; Hirschfeld (University of Florida)

arXiv:cond-mat/9907150·cond-mat.mtrl-sci·October 31, 2009

Order Parameter "Holes" and Theory of Microwave Conductivity in YBCO

Matthias H. Hettler (Argonne National Laboratory), Peter J., Hirschfeld (University of Florida)

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TL;DR

This paper introduces a new model incorporating order parameter 'holes' to explain microwave conductivity in YBCO, achieving better agreement with experiments at low temperatures.

Contribution

It proposes including quasiparticle scattering from order parameter holes at impurities to resolve discrepancies in YBCO microwave conductivity models.

Findings

01

Excellent agreement with experimental data across temperature and frequency ranges.

02

Addresses low-temperature discrepancies in existing d-wave models.

03

Discusses remaining issues in the universal regime at very low temperatures.

Abstract

We propose that the low temperature discrepancy between simple d-wave models of the microwave conductivity and existing experiments on single crystals of YBCO can be resolved by including the scattering of quasiparticles from "holes" of the order parameter at impurity sites. Within a framework proposed previously, we find in particular excellent agreement with data of Hosseini et al. on slightly overdoped YBCO samples over the entire temperature range down to about 2-3K, and for a wide range of frequencies. Remaining discrepancies in the "universal" regime at very low temperatures are discussed.

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