Abstract
We present a study of a microtwinned single crystal of ${\mathrm{LaMnO}}_{3}$ by means of implanted muons. Two muon stopping sites are identified from the symmetry of the internal field in the ordered phase. The temperature dependence of these fields yields the behavior of the staggered magnetization, from which a static critical exponent $[\ensuremath{\beta}=0.36(2)]$ is extracted and discussed. The muon spin-spin relaxation rate shows a critical slowing down (contrary to preliminary findings), with a critical exponent $n=0.7(1),$ demonstrating the Ising nature of the dynamic fluctuations. The muon precession frequencies vs the applied magnetic field reveal the saturation of the weak ferromagnetic domain structure originated by the Dzialoshinski-Moriya antisymmetric exchange.
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