Effect of nonadiabatic switching of dynamic perturbations in 1d Fermi systems

Abstract

We study a two-dimensional fermionic QFT used to model 1D strongly correlated electrons in the presence of a time-dependent impurity that drives the system out of equilibrium. In contrast to previous investigations, we consider a dynamic barrier switched on at a finite time. We compute the total energy density (TED) of the system and establish two well defined regimes in terms of the relationship between the frequency of the time-dependent perturbation and the electron energy ω. Finally, we derive a relaxation time tR such that for times shorter than tR the finite-time switching process is relevant.

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