Switching of magnetic coupling by a structural symmetry change near the Mott transition in Ca2-xSrxRuO4

We studied the structural, magnetic, and transport properties of the quasi- two-dimensional Mott transition system Ca2-xSrxRuO4. In the vicinity of the metal-nonmetal (M-NM) transition at x similar or equal to 0.2, we found a structural transition accompanied by a structural symmetry change with the instability point at x(c)similar or equal to 0.5. The critical change acros s the structural transition in the temperature dependence of the susceptibi lity indicates a crossover of the metallic state, most likely from the near ly antiferromagnetic state next to the M-NM transition to the nearly ferrom agnetic state around x(c). The latter evolves into the spin-triplet superco nductor Sr2RuO4 (x=2) with enhanced paramagnetism. We argue that the compet ition between the structural instability and the ferromagnetism results in such a structural symmetry change with orbital degeneracy lifting, which in duces the switching of magnetic coupling. In addition, a changeover from me tallic to nonmetallic behavior was observed across the structural transitio n in the out-of-plane resistivity, which reveals highly anisotropic transpo rt due to the quasi-two-dimensional electronic structure.