Title :
Transmission Spectra and Quantum Current Distribution of C60 Molecular Device Connected to Different Electrodes
Author :
Lei, Chen ; Liguang, Wang
Author_Institution :
Sch. of Sci., Jiangnan Univ., Wuxi, China
Abstract :
Electronic conductance and quantum current distribution of C60 molecular device connected to different terminals are investigated theoretically by using nonequilibrium Green´s function approach based on tight-binding theory. The electronic transmission spectra of the C60 molecule from an input terminal to the near- and the far-output terminals are obtained, respectively. The quantum currents inside the C60 molecule are calculated and simulated by the current density method based on Fisher-Lee formula at the energy points E=-1.36 and +1.59eV, where the electron transmission probabilities peak. The results show that some larger loop electronic currents are induced inside the C60, and the quantum current distributions agree well with Kirchhoff quantum current conservation law.
Keywords :
Green´s function methods; carbon; current density; electrodes; molecular electronics; tight-binding calculations; C; Fisher-Lee formula; Kirchhoff quantum current conservation law; current density method; electrodes; electron transmission probability; electronic conductance; electronic transmission spectra; energy points; loop electronic currents; molecular device; nonequilibrium Green´s function approach; quantum current distribution; tight-binding theory; Bridges; Couplings; Current density; Current distribution; Distributed computing; Electrodes; Electrons; Green´s function methods; Quantum computing; Quantum mechanics; C60 molecule; nonequilibrium green´s functions; quantum current; transmission spectrum;
Conference_Titel :
Information and Computing (ICIC), 2010 Third International Conference on
Conference_Location :
Wuxi, Jiang Su
Print_ISBN :
978-1-4244-7081-5
Electronic_ISBN :
978-1-4244-7082-2
DOI :
10.1109/ICIC.2010.224
