Competing magnetic orders and anisotropic transport in quantum critical Sr<sub>3</sub>Ru<sub>2</sub>O<sub>7</sub>
ORAL
Abstract
We investigated Sr3Ru2O7, the classic example of a quantum critical metal known to show a metamagnetic quantum phase transition as well as electronic nematicity, through first-principles calculations. The density functional calculations predict a ferromagnetic ground state in contrast to its experimentally observed paramagnetic character. This raises the question whether there exists competing magnetic orders that suppresses its ferromagnetism and if so, then what are those? We performed a thorough search to identify such low energy antiferromagnetically ordered metastable states. We indeed obtain such an (almost) doubly degenerate state with a striped order and calculated its associated transport properties within Boltzmann transport theory. Our results indicate significant transport anisotropy which have been discussed in context of strong spin fluctuations present in this material.
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Presenters
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Aditya Putatunda
Univ of Missouri - Columbia
Authors
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Aditya Putatunda
Univ of Missouri - Columbia
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Guanhua Qin
Univ of Missouri - Columbia, University of Missouri
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Wei Ren
Dept of Physics, Univ of Shanghai, Shanghai University
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David Singh
Univ of Missouri - Columbia, University of Missouri, Physics, The University of Missouri, Department of Physics and Astronomy, University of Missouri, Columbia, Missouri 65211-7010, USA