Stochastic limit approximation for rapidly decaying systems
Abstract
The stochastic limit approximation method for ``rapid'' decay is presented, where the damping rate γ is comparable to the system frequency , i.e., γ , whereas the usual stochastic limit approximation is applied only to the weak damping situation γ << . The key formulas for rapid decay are very similar to those for weak damping, but the dynamics is quite different. From a microscopic Hamiltonian, the spin-boson model, a Bloch equation containing two independent time scales is derived. This is a useful method to extract the minimal dissipative dynamics at high temperature kT >> and the master equations obtained are of the Lindblad form even for the Caldeira-Leggett model. The validity of the method is confirmed by comparing the master equation derived through this method with the exact one.
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