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arxiv: 2210.08631 · v1 · pith:ZSRU6FV4 · submitted 2022-10-16 · cond-mat.mtrl-sci · cond-mat.str-el· quant-ph

Thermodynamic and electron-transport properties of Ca3Ru2O7 from first-principles phonon calculations and Boltzmann transport theory

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classification cond-mat.mtrl-sci cond-mat.str-elquant-ph
keywords electronicmodelpropertiestemperaturetransportapproachboltzmannca3ru2o7
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This work demonstrates a first-principles-based approach to obtaining finite temperature thermal and electronic transport properties which can be employed to model and understand mesoscale structural evolution during electronic, magnetic, and structural phase transitions. A computationally tractable model was introduced to estimate the temperature dependence of the electron relaxation time. The model is applied to Ca3Ru2O7 with a focus on understanding its electrical resistivity across the electronic phase transition at 48 K. A quasiharmonic phonon approach to the lattice vibrations was employed to account for thermal expansion while the Boltzmann transport theory including spin-orbit coupling was used to calculate the electron-transport properties, including the temperature dependence of electrical conductivity.

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