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Intrinsic spin-relaxation induced negative tunnel magnetoresistance in a single-molecule magnet

We investigate theoretically the effects of intrinsic spin-relaxation on the spin-dependent transport through a single-molecule magnet (SMM), which is weakly coupled to ferromagnetic leads. The tunnel magnetoresistance (TMR) is obtained by means of the rate-equation approach including not only the sequential but also the cotunneling processes. It is shown that the TMR is strongly suppressed by the fast spin-relaxation in the sequential region and can vary from a large positive to slight negative value in the cotunneling region. Moreover, with an external magnetic field along the easy-axis of SMM, a large negative TMR is found when the relaxation strength increases. Finally, in the high bias voltage limit the TMR for the negative bias is slightly larger than its characteristic value of the sequential region, however it can become negative for the positive bias caused by the fast spin-relaxation.

preprint2013arXivOpen access
Haiqing XieQiang WangHai-Bin XueHuJun JiaoJ. -Q. Liang
cond-mat.mes-hall
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Haiqing XieQiang WangHai-Bin XueHuJun JiaoJ. -Q. Liang

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