Strong coupling theory for driven tunneling and vibrational relaxation
arXiv:quant-ph/9912024 · doi:10.1103/PhysRevLett.85.860
Abstract
We investigate on a unified basis tunneling and vibrational relaxation in driven dissipative multistable systems described by their N lowest lying unperturbed levels. By use of the discrete variable representation we derive a set of coupled non-Markovian master equations. We present analytical treatments that describe the dynamics in the regime of strong system-bath coupling. Our findings are corroborated by ``ab-initio'' real-time path integral calculations.
4 LaTeX pages including 3 figures