Absorption and Emission in the non-Poisson case
Gerardo Aquino, Luigi Palatella, Paolo Grigolini
TL;DR
This paper extends the Kubo-Anderson theory to non-Poisson systems, addressing challenges posed by intermittent fluorescence with non-exponential waiting times, and explores aging effects in such systems.
Contribution
It introduces a method to adapt the KA theory for systems with non-Poisson statistics, including aging and infinitely aged systems.
Findings
Extended KA theory to non-Poisson, aging systems
Addressed intermittent fluorescence with non-exponential waiting times
Provided a framework for infinitely aged systems
Abstract
This letter adresses the challenging problems posed to the Kubo-Anderson (KA) theory by the discovery of intermittent resonant fluorescence with a non-exponential distribution of waiting times. We show how to extend the KA theory from aged to aging systems, aging for a very extended time period or even forever, being a crucial consequence of non-Poisson statistics.
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