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Coherent controlling surface plasmon transport in metal nanowire coupled to quantum dot is investigated theoretically by real-space method. In the calculations, the dispersion relation of metal nanowire is supposed to be linear and the quantum dot is a cascaded three-level system. The calculations reveal that whether the surface plasmon is transmitted or reflected by turning off or on the classic field can be controlled. The surface plasmon transmission and reflection spectra can be controlled by adjusting the intensity and the circular frequency of classic optical field even the energy of surface plasmon and quantum dot is not matched. The dissipations affecting on the transport properties are also discussed.
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Keywords:
- surface plasmon /
- quantum dot /
- scattering
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[1] Shun J T, Fan S 2005 Opt. Lett. 30 2001
[2] [3] Shun J T, Fan S 2009 Phys. Rev. A 79 023837
[4] Zhou L, Gong Z R, Liu Y X, Sun C P, Nori F 2008 Phys. Rev. Lett. 101 100501
[5] [6] [7] Liao J Q, Gong Z R, Zhou L, Liu Y X, Sun C P, Nori F 2010 Phys. Rev. A 81 042304
[8] Zhou L, Yang S, Liu Y X, Sun C P, Nori F 2009 Phys. Rev. A 80 062109
[9] [10] Zhang X, Jiang C 2010 J. Phys. B 43 065505
[11] [12] [13] Witthaut D, Srensen A S 2010 N. J. Phys. 12 043052
[14] Bai J X, Mi X W, Li D J 2010 Acta Phys. Sin 59 6205 (in Chinese) [柏江湘、米贤武、李德君 2010 59 6205]
[15] [16] [17] Wallraff A, Schuster D I, Blais A, Frunzio L, Huang R S, Majer J, Kumar S, Girvin S M, Schoelkopf R J 2004 Nature 431 162
[18] Srinivasan K, Painter O 2007 Nature 450 862
[19] [20] Dayan B, Parkins A S, Aoki T, Ostby E P, Vahala K J, Kimble H J 2008 Science 319 1062
[21] [22] [23] Wei X, Zhang J, Zhu Y 2010 Phys. Rev. A 82 033808
[24] [25] Ditlbacher H, Hohenau A, Wagner D, Kreibig U, Rogers M, Hofer F, Aussenegg F R, Krenn J R 2005 Phys. Rev. Lett. 95 257403
[26] [27] Yang P F, Gu Y, Gong Q H 2008 Chin. Phys. B 17 3880
[28] Guo Y N, Xue W R, Zhang W M 2009 Acta Phys. Sin 58 4168 (in Chinese) [郭亚楠、薛文瑞、张文梅 2009 58 4168]
[29] [30] Zhou Z K, Li M, Yang Z J, Peng X N, Su X R, Zhang Z S, Li J B, Kim N C, Yu X F, Zhou L, Hao Z H, Wang Q Q 2010 ACS Nano 4 5003
[31] [32] [33] Li J B, Cheng M T, Yang Z J, Hao Z H 2009 Chin. Phys. Lett. 26 113202
[34] [35] Chang D E, Srensen A S, Demler E A, Lukin M D 2007 Nat. Phys. 3 807
[36] Liu S D, Cheng M T, Yang Z J, Wang Q Q 2008 Opt. Lett. 33 851
[37] [38] Chang D E, Srensen A S, Hemmer P R, Lukin M D 2006 Phys. Rev. Lett. 97 053002
[39] [40] [41] Akimov A V, Mukherjee A, Yu C L, Chang D E, Zibrov A S, Hemmer P R, Park H, Lukin M D 2007 Nature 450 402
[42] Fedutik Y, Temnov V V, Schps O, Woggon U, Artemyev M V 2007 Phys. Rev. Lett. 99 136802
[43] [44] [45] Wei H, Ratchford D, Li X, Xu H, Shih C K 2009 Nano Lett. 9 4168
[46] Cheng M T, Luo Y Q, Wang P Z, Zhao G X 2010 Appl. Phys. Lett. 97 191903
[47] [48] Chen Y N, Chen G Y, Chuu D S, Brandes T 2009 Phys. Rev. A 79 033815
[49] [50] Kim N C, Li J B, Yang Z J, Hao Z H, Wang Q Q 2010 Appl. Phys. Lett. 97 061110
[51] [52] [53] Chen W, Chen G Y, Chen Y N 2010 Opt. Express 18 10360
[54] [55] Avidan A, Oron D 2008 Nano Lett. 8 2384
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