Nonlinear response of single-molecule nanomagnets: equilibrium and dynamical
Abstract
We present an experimental study of the nonlinear susceptibility of Mn12 single-molecule magnets. We investigate both their thermal-equilibrium and dynamical nonlinear responses. The equilibrium results show the sensitivity of the nonlinear susceptibility to the magnetic anisotropy, which is nearly absent in the linear response for axes distributed at random. The nonlinear dynamic response of Mn12 was recently found to be very large and displaying peaks reversed with respect to classical superparamagnets [F. Luis et al., Phys. Rev. Lett. 92, 107201 (2004)]. Here we corroborate the proposed explanation -- strong field dependence of the relaxation rate due to the detuning of tunnel energy levels. This is done by studying the orientational dependence of the nonlinear susceptibility, which permits to isolate the quantum detuning contribution. Besides, from the analysis of the longitudinal and transverse contributions we estimate a bound for the decoherence time due to the coupling to the phonon bath.
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