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介观金属环中量子干涉晶体管对电子相干性的影响 被引量:3

Electronic coherence influenced by quantum-interference transistor in metallic ring of mesoscopic system
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摘要 研究了介观金属环1个通道上的量子干涉晶体管的栅极电压及其在通道上的位置对电子相干性的影响。理论结果表明,一般情况下改变栅极长度L6(下通道长度L2)会使透射率以π(2π)周期性变化。同时发现栅极在通道上的位置对透射率的周期性不产生影响,仅改变透射率的大小。但当kL6=nπ时,透射率为kL2的函数,周期为π;当kL6=(2n+1)2π时,量子干涉晶体管的位置不影响电子透射率的相干性;当上、下通道长度相等,且kL2=kL=nπ时,透射率恒为1,与栅极长度及其在通道上的位置无关。 This paper discasses the electronic coherence affected by the voltage and the position of quantum-lnterference transistor's gate on one arm of metallic ring of mesoscopic system. The theoretical results indicate that, generally changing the length L6 of the gate(the length L2 of the lower arm) can make transmissivity have the periodic variation whose period is n (2π), and simultaneously it is found that the position of quantum-interference transistor's gate on the arm doesn't influence the periodicity of the transmissivity, but only changes the size of the transmissivity ,and the period of transmissivity as function of kL2 will be n when kL6 is equal to nπ quantum-interference transistor will not influence the coherence of electronic transmissivity when kL6 is equal to (2n+1)/2π; the transmissivity will be permanently equal to 1, and irrelevant with the length of the gate and the position of quantum-interference transistor's gate on the arm when kL2 and kL are both equal to nπ.
作者 杨玉峰 白志明
机构地区 河北科技大学理学院
出处 《河北科技大学学报》 CAS 2006年第3期204-208,共5页 Journal of Hebei University of Science and Technology
关键词 介观金属环 相位差 振幅 透射率 metallic ring of mesoscopic system phase difference amplitude transmissivity
分类号 O488 [理学—固体物理]
  • 相关文献

参考文献4

  • 1WEBB R A,WASHBURN S,UMBACH C P,et al.Observation of h / e aharonov-bohm oscillations in normal-metal rings[J].Phys Rev Lett,1985,54(25):2 696-2 699.
  • 2YACOBY A,HEIBLUM M,MAHALU D,et al.Coherence and phase sensitive measurements in a quantum dot[J].Phys Rev Lett,1995,74(20):4 047-4 050.
  • 3WEES B J V,HOUTEN H V,BEENAKKER C W J,et al.Quantized conductance of point contacts in a two-dimensional electron gas[J].Phys Rev Lett,1988,60(9):848-850.
  • 4XIA J B.Quantum waveguide theory for mesoscopic structures[J].Phys Rev B,1992,45(7):3 593-3 599.

同被引文献26

  • 1SHANKAR R. Principles of Quantum Mechanics[M]. 2nd ed. New York:Plenum Press,1994.
  • 2冯端,金国钧.凝聚态物理(上卷)[M].北京:高等教育出版社,2003.
  • 3阎守胜.现代固体物理学导论[M].北京:北京大学出版社,2008.
  • 4HANG Xie, PING Shen. Fluctuation-induced tunneling conduction through nano-constrictions[J]. Phys Rev B, 2009,79 : 165 -419.
  • 5XIA Jian-bai,SHENG Wei-dong. On the soft wall guiding potentials in realistic quantum waveguides[J]. J Appl Phys, 1996,79(10) :7 780- 7 784.
  • 6XIA Jian-bai. Quantum waveguide theory for microscopic structures[J]. Phys Rev B,1992,45(7) :3 593-3 599.
  • 7ANDERSON M H,ENSCHER J R,METHEWS M R,et al.Observation of Bose-Einstein condensation in a dilute at finite temperatures[J].Science,1995,269:198-201.
  • 8DOVIS K B,MEWES M O,ANDREWS M R,et al.Bose-Einstein condensate in a gas of sodium atoms[J].Phys Rev Lett,1995,75:3 969-3 973.
  • 9YOU L,LEWENSTEIN M,COOPER J.Quantum field theory of atoms interacting with photons[J].Phys Rev A,1995,51:4 712-4 727.
  • 10JING H,CHEN J L,GE M L.Quantum dynamical theory for squeezing the output of a Bose-Einstein condensate[J].Phys Rev A,2001,63:15 601-15 604.

引证文献3

二级引证文献10

河北科技大学学报
2006年 第3期

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