Magnetotransport in d-wave density waves

Bal\'azs D\'ora; Kazumi Maki; Attila Virosztek

arXiv:cond-mat/0509483·cond-mat.str-el·November 11, 2009

Magnetotransport in d-wave density waves

Bal\'azs D\'ora, Kazumi Maki, Attila Virosztek

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TL;DR

This paper models magnetotransport properties like ADMR and Nernst effect in d-wave density waves, explaining experimental observations in high-temperature superconductor pseudogap phases.

Contribution

It provides a theoretical framework for understanding ADMR and Nernst effect in d-wave density waves in quasi-two-dimensional systems, matching experimental data.

Findings

01

ADMR observed in pseudogap phase explained

02

Theory matches experimental data in Y_0.68Pr_0.32Ba_2Cu_3O_7 and CeCoIn_5

03

Describes unconventional density wave transport properties

Abstract

Angle dependent magnetoresistance (ADMR) and giant Nernst effect are hallmarks of unconventional density waves (UDW). Here these transport properties for d-wave density wave (d-DW) are computed for quasi-two-dimensional systems. The present theory describes ADMR observed in the pseudogap phase of Y_0.68Pr_0.32Ba_2Cu_3O_7 and CeCoIn_5 single crystals very satisfactorily.

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