Ultrasensitive multi-mode ESR probed ferromagnetic two-level system of Mn4+ impurity ion in the insulated MnO6 complex of SrLaAlO4 at 20~mK

Abstract

Ultrasnsitive multi-mode electron spin resonance spectroscopy in the SrLaAlO4 dielectric resonator at 20~mK reveals ferromagnetic states of Mn4+ impurity ion. The formation of ferromagnetic states in the MnO6 complex implies to oxygen deficiency of this multi-valence Mn4+ ion. Experiment results supports that an intricate electronic hybridization in MnO6 structural instability is related to Pseudo Jahn-Teller effect. Measured dipolar hyperfine structure parameter of nucleus is P =-3.7× 10-4~cm-1. Mean inverse third power of the electron distance is rq-3=3.325~a.u. assuming nuclear electric quadruple moment Q=+0.33(1)~barn. In such a state, giant g-factor is observed due to magneto (ferromagnetic) impedance taking in to account a two-level system on the adiabatic-potential-energy-surface. The spins exhibited parity is opposite in the interaction of highest-occupied-molecular-orbital and lowest-unoccupied-molecular-orbital coupling.