Thursday, June 21, 2012

1206.4372 (Yao Yao et al.)

Thermalization Breakdown and Conductivity Improvement within the
Interacting Dynamic Disorder Model
   [PDF]

Yao Yao, Yiqiang Zhan, Xiaoyuan Hou, Chang-Qin Wu
Based on the framework of Kubo formulism, we develop the minimally entangled typical thermal state algorithm to study the temperature and time dependence of current-current correlation function in one-dimensional spinless fermion model, taking into account both the electron-electron (e-e) intersite interaction and the dynamic disorder induced by classical phonons. Without e-e interaction, the numerical results, showing an exponential decay of the time dependent correlation, could be precisely compared with that from the analytical derivation, namely, from the generalized Langevin equation. More importantly, when a strong enough e-e interaction is presence, we find a long-time correlation in the regime of small dynamic disorder, indicating the breakdown of thermal relaxation, which is a typical many-body effect. On the basis of this finding, we show that it might be applied to understand the metalliclike charge transport and the abnormal improvement of the conductivity with respect to the redoping experiment in K$_3$C$_{60}$, an organic superconducting material.
View original: http://arxiv.org/abs/1206.4372

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