Tunable electron scattering mechanism in plasmonic SrMoO3 thin films

“…Synthetic oxide crystals with atomic-scale precision control offer a promising pathway for exploring the dimensionality engineering of MA and the resultant magnetic ground states. The deliberate design of oxide heterostructures enables the customization of the synthetic atomic network, dimensionality, electronic structure, and magnetic properties. − The strong interplay between the charge, spin, lattice, and orbital degrees of freedom further fosters correlated functionalities that are strongly modified by varying the spatial dimension. By utilizing perovskite SrRuO 3 (SRO), a strongly correlated ferromagnet, we can access the dimensional crossover of a synthetic magnetic crystal by controlling the atomic thickness of the SRO layer.…”

Dimensionality Engineering of Magnetic Anisotropy from the Anomalous Hall Effect in Synthetic SrRuO₃ Crystals

“…Synthetic oxide crystals with atomic-scale precision control offer a promising pathway for exploring the dimensionality engineering of MA and the resultant magnetic ground states. The deliberate design of oxide heterostructures enables the customization of the synthetic atomic network, dimensionality, electronic structure, and magnetic properties. − The strong interplay between the charge, spin, lattice, and orbital degrees of freedom further fosters correlated functionalities that are strongly modified by varying the spatial dimension. By utilizing perovskite SrRuO 3 (SRO), a strongly correlated ferromagnet, we can access the dimensional crossover of a synthetic magnetic crystal by controlling the atomic thickness of the SRO layer.…”

Dimensionality Engineering of Magnetic Anisotropy from the Anomalous Hall Effect in Synthetic SrRuO₃ Crystals

Complex oxide thin films: A review on pulsed laser epitaxy growth

Optical characterization of the charge density wave phase of 9R BaRuO3 thin film