Publication: Quantum modulation effect in a graphene-based magnetic tunnel junction
Issued Date
2008-07-21
Resource Type
ISSN
03759601
Other identifier(s)
2-s2.0-46449106261
Rights
Mahidol University
Rights Holder(s)
SCOPUS
Bibliographic Citation
Physics Letters, Section A: General, Atomic and Solid State Physics. Vol.372, No.30 (2008), 5054-5058
Suggested Citation
Bumned Soodchomshom, I. Ming Tang, Rassmidara Hoonsawat Quantum modulation effect in a graphene-based magnetic tunnel junction. Physics Letters, Section A: General, Atomic and Solid State Physics. Vol.372, No.30 (2008), 5054-5058. doi:10.1016/j.physleta.2008.05.051 Retrieved from: https://repository.li.mahidol.ac.th/handle/20.500.14594/19892
Research Projects
Organizational Units
Authors
Journal Issue
Thesis
Title
Quantum modulation effect in a graphene-based magnetic tunnel junction
Abstract
The electronic (quantum) transport in a NG/FB/FG tunnel junction (where NG, FBand FG are a normal graphene layer, a ferromagnetic barrier connected to a gate and a ferromagnetic graphene layer, respectively) is investigated. The motions of the electrons in the graphene layers are taken to be governed by the Dirac Equation. Parallel (P) and antiparallel alignment (AP) of the magnetizations in the barrier and in the ferromagnetic graphene are considered. Our work focuses on the oscillation of the electrical conductance (Gq), of the spin conductance (Gs) and of the tunneling magneto resistance (TMR) of this magnetic tunnel junction. We find that, the quantum modulation due to the effect of the exchange field in FBwill be seen in the plots the conductance and of the TMR as functions of the thickness of ferromagnetic barrier (L). The period of two multiplied sinusoidal terms of the modulation are seen to be controlled by varying the gate potential and the exchange field of the FBlayer. The phenomenon, a quantum beating, is built up with two oscillating spin conductance components which have different periods of oscillation related to the splitting of Dirac's energies in the FBregion. The amplitudes of oscillations of Gq, Gsand TMR are not seen to decrease as the thickness increases. The decaying behaviors seen in the conventional transport through an insulator do not appear. © 2008 Elsevier B.V. All rights reserved.