Chin. Phys. Lett.  2005, Vol. 22 Issue (8): 2035-2038    DOI:
Original Articles |
Spin and Charge Currents through a Quantum Dot Connected to Ferromagnetic Leads
CHI Feng;LI Shu-Shen
State Key Laboratory for Superlattices and Microstructures, Institute of Semiconductors, Chinese Academy of Sciences, PO Box 912, Beijing 100083
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CHI Feng, LI Shu-Shen 2005 Chin. Phys. Lett. 22 2035-2038
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Abstract We investigate the spin polarized current through a quantum dot connected to ferromagnetic leads in the presence of a finite spin-dependent chemical potential. The effects of the spin polarization of the leads p and the external magnetic field B are studied. It is found that both the magnitude and the symmetry of the current are dependent on the spin polarization of the leads. When the two ferromagnetic leads are in parallel configuration, the spin polarization p has an insignificant effect on the spin current, and an accompanying charge current appears with the increase of p. When the leads are in antiparallel configuration, however, the effect of p is distinct. The charge current is always zero regardless of the variation of p in the absence of B. The peaks appearing in the pure spin current are greatly suppressed and become asymmetric as p is increased. The applied magnetic field B results in an accompanying charge current in both the parallel and antiparallel configurations of the leads. The characteristics of the currents are explained in terms of the density of states of the quantum dot.
Keywords: 73.23.-b      72.25.-b      73.40.Gk      85.75.-d     
Published: 01 August 2005
PACS:  73.23.-b (Electronic transport in mesoscopic systems)  
  72.25.-b (Spin polarized transport)  
  73.40.Gk (Tunneling)  
  85.75.-d (Magnetoelectronics; spintronics: devices exploiting spin polarized transport or integrated magnetic fields)  
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https://cpl.iphy.ac.cn/       OR      https://cpl.iphy.ac.cn/Y2005/V22/I8/02035
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