摘要
We use non-equilibrium Green's function method to analyze the shot noise spectrum of artificial single molecular magnets(ASMM) model in the strong spin–orbit coupling limit in sequential tunneling regime, mainly focusing on the effects of local large spin. In the linear response regime, the shot noise shows 2S + 1 peaks and is strongly spin-dependent.In the nonlinear response regime, one can observe 2S + 1 steps in shot noise and Fano factor. In these steps one can see the significant enhancement effect due to the spin-dependent multi-channel process of local large spin, which reduces electron correlations.
We use non-equilibrium Green's function method to analyze the shot noise spectrum of artificial single molecular magnets(ASMM) model in the strong spin–orbit coupling limit in sequential tunneling regime, mainly focusing on the effects of local large spin. In the linear response regime, the shot noise shows 2S + 1 peaks and is strongly spin-dependent.In the nonlinear response regime, one can observe 2S + 1 steps in shot noise and Fano factor. In these steps one can see the significant enhancement effect due to the spin-dependent multi-channel process of local large spin, which reduces electron correlations.
基金
Project supported by the National Natural Science Foundation of China(Grant Nos.11504210
11504211
11504212
11274207
11274208
11174115
and11325417)
the Key Program of the Ministry of Education of China(Grant No.212018)
the Scientific and Technological Project of Shanxi Province
China(Grant No.2015031002-2)
the Natural Science Foundation of Shanxi Province
China(Grant Nos.2013011007-2 and 2013021010-5)
the Outstanding Innovative Teams of Higher Learning Institutions of Shanxi Province
China
