Hydrodynamical description for magneto-transport in the strange metal phase of Bi-2201
Andrea Amoretti, Martina Meinero, Daniel K. Brattan, Federico Caglieris, Enrico Giannini, Marco Affronte, Christian Hess, Bernd Buechner, Nicodemo Magnoli, Marina Putti
Abstract
This paper shows that hydrodynamics describes the low temperature behavior of thermoelectric transport properties in the strange metal regime of cuprate superconductors. A validation of the theoretical model is provided by measuring five DC transport coefficients in optimally doped Bi-2201.
Topics & Concepts
CupratePhysicsPhase (matter)Condensed matter physicsThermoelectric effectWork (physics)Phase diagramMetalMaterials scienceThermodynamicsTransport theoryStatistical physicsMathematical modelSuperconductivityMeasure (data warehouse)Temperature measurementPhysics of Superconductivity and MagnetismChemical and Physical Properties of MaterialsAdvanced Physical and Chemical Molecular Interactions