Compressive strain along [001] stabilizes altermagnetism in RuO2 films on (100) and (110) TiO2 substrates, tunable by film thickness, with (100) orientation yielding ideal altermagnetic order and (110) showing uncompensated ferrimagnetism.
Title resolution pending
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
fields
cond-mat.mtrl-sci 3representative citing papers
Ultra-clean RuO2 crystals exhibit weakly correlated 3D Fermi-liquid behavior with susceptibility increasing with temperature due to lattice-expansion effects on the band structure.
citing papers explorer
-
Strain Engineering of Altermagnetic Symmetry in Epitaxial RuO$_2$ Films
Compressive strain along [001] stabilizes altermagnetism in RuO2 films on (100) and (110) TiO2 substrates, tunable by film thickness, with (100) orientation yielding ideal altermagnetic order and (110) showing uncompensated ferrimagnetism.
-
Fermi-liquid behavior and characteristic temperature-dependent susceptibility in clean RuO$_2$ crystal
Ultra-clean RuO2 crystals exhibit weakly correlated 3D Fermi-liquid behavior with susceptibility increasing with temperature due to lattice-expansion effects on the band structure.
- Correlation-driven tunability of altermagnetism in RuO$_2$