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D. Segal, D.R. Reichman, and A.J. Millis, Nonequilibrium quantum dissipation in spin-fermion systems.
D. Segal, D. R. Reichman and A. J. Millis, Nonequilibrium quantum dissipation in spin-fermion systems.
It is shown that the recombination rate at steady state is strongly dependent upon the ratio between the probabilities (per unit time) of quantum dissipation to the solid and of adatom recombination.
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The free-energy change in this regard is derived via thermodynamic integration from the phase-space trajectories generated from MD simulations based on the quantum fluctuation-dissipation relation.
For the generation of color noise with the power spectrum, consistent with the quantum fluctuation-dissipation theorem, we use the method which was developed in[2].
D. Segal, A. J. Millis and D. R. Reichman, Numerically exact path-integral simulation of nonequilibrium quantum transport and dissipation.
Therefore, higher proportions of absorbed energy in mid-veins needs to be dissipated as heat, which was supported by the higher DIo/RC (dissipated energy flux per RC) and DIO/ABS (quantum yield for energy dissipation, Fig. 5a).
Caldeira, A. O. & Leggett, A. J. Influence of dissipation on quantum tunneling in macroscopic systems.
D. R. Reichman and M. H. Cho, Alternative model of dissipation in quantum mechanics.
Barontini, G. et al. Controlling the dynamics of an open many-body quantum system with localized dissipation.
Here the authors identify conditions under which dissipation prevents quantum many-body systems from reaching a steady state and they instead exhibit coherent oscillations.
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