Quantum Nucleation of Phase Slip in Charge-Density-Wave Systems : Role of Long-Range Coulomb Interactions

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概要

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• Phase-slip processes near electrical contacts are responsible for the nonlinear current-voltage characteristic in clean charge-density-wave systems. In the low-temperature regime near absolute zero, the phase slip is induced by dislocation-loop (DL) nucleation due to quantum tunneling. The quantum nucleation rate of the phase slip is calculated at zero temperature by taking account of the Coulomb interaction effect on the DL. It is shown that a large charging energy associated with the DL greatly reduces the nucleation rate in the low-bias regime. Consequently, the current-voltage characteristic, which is determined by the nucleation rate, is shifted to higher voltages compared with that in the absence of the Coulomb interaction. The voltage shift is of the order of V_<th> 〜 γhω_p/e (γ: anisotropy constant, ω_p: plasma frequency in the normal state).

• 社団法人日本物理学会の論文
• 2002-08-15

著者

• Takane Yositake

  Department Of Physical Electronics Hiroshima University

• Takane Yositake

  Department Of Applied Physics Osaka City University

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