Effect of Electronic Correlations on Magnetotransport through a Parallel Double Quantum Dot

doi:10.1088/0256-307X/29/3/037303

Chin. Phys. Lett.

2012, Vol. 29

Issue (3): 037303 DOI: 10.1088/0256-307X/29/3/037303

CONDENSED MATTER: ELECTRONIC STRUCTURE, ELECTRICAL, MAGNETIC, AND OPTICAL PROPERTIES

Effect of Electronic Correlations on Magnetotransport through a Parallel Double Quantum Dot

FANG Dong-Kai^**, WU Shao-Quan, ZOU Cheng-Yi, ZHAO Guo-Ping

College of Physics and Electronic Engineering, Sichuan Normal University, Chengdu 610068

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FANG Dong-Kai, WU Shao-Quan, ZOU Cheng-Yi et al 2012 Chin. Phys. Lett. 29 037303

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Abstract

We theoretically investigate the effect of electronic correlations (including spin and Coulomb correlations) on magnetotransport through a parallel double quantum dot coupled to ferromagnetic leads. Within the framework of the generalized master equation, we analyze the current, differential conductance and tunnel magnetoresistance versus bias for different electron correlations. Our results reveal that spin correlations can induce a giant tunnel magnetoresistance, while Coulomb correlations can lead to the occurrence of negative tunnel magetoresistance and negative differential conductance, and the relevant underlying physics of this problem is discussed.

Keywords: 73.63.Kv 73.23.Hk 73.40.Gk 72.25.-b

Received: 11 December 2011 Published: 11 March 2012

PACS:	73.63.Kv	(Quantum dots)
	73.23.Hk	(Coulomb blockade; single-electron tunneling)
	73.40.Gk	(Tunneling)
	72.25.-b	(Spin polarized transport)

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	FANG Dong-Kai
	WU Shao-Quan
	ZOU Cheng-Yi
	ZHAO Guo-Ping

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