Anomalous Hall effect in high mobility La doped EuTiO₃ films on LSAT substrates grown by gas source molecular beam epitaxy

A magnetic semiconductor EuTiO₃ is one of the ideal systems to control the anomalous Hall effect (AHE) by tuning the Fermi level through the Berry curvatures. In our previous work, we demonstrated the sign of AHE was reversed by shifting the Fermi level for La doped EuTiO₃ (Eu_1-xLa_xTiO₃) films on LSAT substrates grown by pulsed laser deposition (PLD). However, the observed AHE for the PLD films did not fully reflect the fine structures of band crossing due to the short scattering life time.
Here, high crystalline quality films of Eu_1-xLa_xTiO₃ were successfully grown on LSAT substrates by metalorganic gas source molecular beam epitaxy (MOMBE). The electron mobility reaches 300 cm²V^-1s^-1 at 2 K, which is one order of magnitude higher than that of PLD films. An additional term of AHE, which is not proportional to magnetization curve, was clearly observed for high mobility MOMBE films. Model calculations reveal that the change of Zeeman energy splitting during the magnetization process causes the non-monotonic behavior of AHE. These results strongly suggests that the high mobility EuTiO₃ film is an excellent platform for investigating transport phenomena of spin polarized electrons.