Electron mass enhancement and magnetic phase separation near the Mott transition in double-layer ruthenates

Polar metals exist as a rather unique class of materials as they combine two seemingly mutually exclusive properties (polar order and metallicity) in one system. So far only a few polar metals have been unambiguously identified; the magnetic ones are exceptionally rare. Here we investigate a 5% Fe doped polar metal Ca3Ru2O7, via electrical transport, magnetization, microstrain and optical second harmonic generation measurements. We report the full magnetic phase diagrams (in the field-temperature space) for magnetic field H//a and H//b, which exhibit distinct field-dependent magnetizations behavior. In particular for H//a we found a new ferromagnetic incommensurate spin structure, which is absent in the pure Ca3Ru2O7. We propose a microscopic spin model to understand this behavior, highlighting the role of Fe doping in tipping the delicate balance of the underlying exchange interaction energy in this system.

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Polar metals taxonomy for materials classification and discovery

Hickox-Young

Puggioni

Rondinelli

2023

Phys. Rev. Materials

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Electron mass enhancement and magnetic phase separation near the Mott transition in double-layer ruthenates

Cited by 3 publications

References 35 publications

Dirac Equation with Position-Dependent Mass and Coulomb-like Field in Hausdorff Dimension

Dirac Equation with Position-Dependent Mass and Coulomb-like Field in Hausdorff Dimension

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Polar metals taxonomy for materials classification and discovery

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