Synergetics in multiple exciton generation effect in quantum dots
N.N. Turaeva, B.L. Oksengendler, I. Uralov
TL;DR
This paper analyzes the non-Poissonian exciton population distribution in quantum dots caused by the multiple exciton generation effect, revealing its non-linear and non-equilibrium nature through a synergetic and statistical approach.
Contribution
It introduces a novel analysis combining synergetic and statistical theories to understand MEG in quantum dots, highlighting the non-linear, non-equilibrium process.
Findings
Non-Poissonian exciton distribution indicates non-linear MEG process.
Evidence of non-equilibrium dynamics in exciton generation.
Analysis methodology applicable to quantum dot systems.
Abstract
We present detailed analysis of the non-Poissonian population of excitons produced by MEG effect in quantum dots on the base of statistic theory of MEG and synergetic approach for chemical reactions. From the analysis we can conclude that a non-Poissonian distribution of exciton population is evidence of non-linear and non-equilibrium character of the process of multiple generation of excitons in quantum dots at a single photon absorption
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