17: Fluctuations and Dephasing

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17.1: Line-broadening, dephasing, and spectral diffusion
We define terms and summarize the effects that a fluctuating environment can have on an absorption spectrum.
17.2: Gaussian-Stochastic Model for Spectral Diffusion
We describe the Gaussian-stochastic model (or Kubo model) for the effect of fluctuations on an absorption lineshape, showing that in the limits of fast or slow fluctuations on recovers a homogeneous or inhomogeneous lineshape.
17.3: The Energy Gap Hamiltonian
The energy gap Hamiltonian re-writes the displaced harmonic oscillator model in a way that mirrors the Gaussian-stochastic model, changing the physical picture to a system imbedded in a fluctuating bath.
17.4: Spectral Density for Condensed Phase Spectroscopy
We describe typical continuum densities of state in condensed matter and how the influence of these collective motions impact the electronic absorption lineshape. An example for the temperature dependent spectroscopy of a polyacene is given.
17.5: The Harmonic Bath’s Relation to the Langevin Equation
We introduce the Brownian oscillator model, which is obtained from a linear transformation of the independent nuclear motions in the Energy Gap Hamiltonian to a single oscillator coupled to a harmonic bath. We then show that the equation of motion for the Brownian oscillator coordinate is equivalent the classical Langevin equation for a stochastically modulated oscillator.
17.6: Readings

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