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Considering both the gradient decay of the real disorder and the contact scattering, we investigate the electronic transport in quasi-one-dimensional nanowires by developing a decomposition elimination method for Green's function matrix. In the presence the contact scattering, the conductance oscillates with energy. For some energies of incident electrons, an abnormal enhancement is obtained in the average conductance due to the destroyed coherence by the introduction of much low disorder, showing that there appears a new conductance peak. In the absence of disorder gradient, the average conductance firstly decreases then increases with disorder strength, indicating that there exists a localization-delocalization transition. In the presence of linearly decaying disorder, the average conductance increases slightly in a strong disorder region. In the case of the Gaussian-type decaying disorder, the average conductance decreases exponentially and the localization-delocalization transition disappears, which is different from previous thereotical result. The results are helpful for the design and the application of quasi-one-dimensional nanowires device.
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[48] Chen H B, Ding J W 2008 Physica. B 403 2015
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[51] [52] [53] Ma M M, Ding J W, Chen H B, Xu N 2009 Acta Pyhs. Sin. 58 2726 (in Chinese)[马明明、丁建文、陈宏波、徐 宁 2009 58 2726]
[54] Xu N, Ding J W, Xing D Y 2008 J. Appl. Phys. 103 083710
[55] [56] [57] Jiang J, Dong J, Xing D Y 2003 Phys. Rev. Lett. 91 056802
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[1] Aharonov Y, Bohm D 1959 Phys. Rev. 115 485
[2] [3] Van der Marel D, Haanappel E G 1989 Phys. Rev. B 39 7811
[4] [5] Lvy L P, Dolan G, Dunsmuir J, Bouchiat H 1990 Phys. Rev. Lett. 64 2074
[6] Pichler T, Knupfer M, Golden M S, Fink J, Rinzler A, Smalley R E 1998 Phys. Rev. Lett. 80 4729
[7] [8] Zwanenburg F, van Rijmenam C, Fang Y, Lieber C, Kouwenhoven L 2009 Nano Lett. 9 1071
[9] [10] [11] Gustavsson S, Leturcq R, Simovič B, Schleser R, Ihn T, Studerus P, Ensslin K, Driscoll D C, Gossard A C 2006 Phys. Rev. Lett. 96 076605
[12] [13] Takagahara T, Takeda K 1992 Phys. Rev. B 46 15578
[14] Songmuang R, Katsaros G, Monroy E, Spathis P, Bougerol C, Mongillo M, De Franceschi S 2010 Nano Lett. 10 3345
[15] [16] [17] Xia Y, Yang P, Sun Y, Wu Y, Mayers B, Gates B, Yin Y, Kim F, Yan H 2003 Adv. Mater. 15 353
[18] [19] Cui Y,Wang Q Q, Park H K, Lieber C 2001 Science 293 1289
[20] [21] Gudiksen M, Lauhon L, Wang J, Smith D, Lieber C 2002 Nature 415 617
[22] Ramayya E B, Vasileska D, Goodnick S M, Knezevic I 2007 IEEE Trans. Nanotech. 6 113
[23] [24] Hochbaum A I, Chen R 2008 Nature 451 163
[25] [26] [27] Duan X, Huang Y, Cui Y, Wang J, Lieber C 2001 Nature 409 66
[28] Anderson P W 1958 Phys. Rev. 109 1492
[29] [30] [31] Lee P A, Ramakrishnan T V 1985 Rev. Mod. Phys. 57 287
[32] [33] Kander I, Imry Y, Sivan U 1990 Phys. Rev. B 41 12941
[34] [35] Mucciolo E, Castro Neto A, Lewenkopf C 2009 Phys. Rev. B 79 075407
[36] [37] Markussen T, Rurali R, Brandbyge M, Jauho A P 2006 Phys. Rev. B 74 245313
[38] [39] Akguc G B, Gong J 2008 Phys. Rev. B 78 115317
[40] Feist J, Bcker A, Ketzmerick R, Burgdrfer J, Rotter S 2009 Phys. Rev. B 80 245322
[41] [42] Yang C Y, Ding J W, Xu N 2007 Physica. B 394 69
[43] [44] Areshkin D A, Gunlycke D, White C T 2007 Nano Lett. 7 204
[45] [46] [47] Zhong J X, Stocks G M 2006 Nano Lett. 6 128
[48] Chen H B, Ding J W 2008 Physica. B 403 2015
[49] [50] Cuevas E, Louis E, Vergs J 1996 Phys. Rev. Lett. 77 1970
[51] [52] [53] Ma M M, Ding J W, Chen H B, Xu N 2009 Acta Pyhs. Sin. 58 2726 (in Chinese)[马明明、丁建文、陈宏波、徐 宁 2009 58 2726]
[54] Xu N, Ding J W, Xing D Y 2008 J. Appl. Phys. 103 083710
[55] [56] [57] Jiang J, Dong J, Xing D Y 2003 Phys. Rev. Lett. 91 056802
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