We show that, in particular experimental conditions, the time course of the radiant fluxes, measured from a bioluminescent emission of a Vibrio harveyi related strain, collapse after suitable rescaling onto the Gumbel distribution of extreme value theory. We argue that the activation times of the strain luminous emission follow the universal behavior described by this statistical law, in spite of the fact that no extremal process is known to occur.
Bacterial bioluminescence and Gumbel statistics: From quorum sensing to correlation
DELLE SIDE, DOMENICO;VELARDI, LUCIANO;NASSISI, Vincenzo;PENNETTA, Cecilia;ALIFANO, Pietro;TALA', ADELFIA;TREDICI, Salvatore Maurizio
2013-01-01
Abstract
We show that, in particular experimental conditions, the time course of the radiant fluxes, measured from a bioluminescent emission of a Vibrio harveyi related strain, collapse after suitable rescaling onto the Gumbel distribution of extreme value theory. We argue that the activation times of the strain luminous emission follow the universal behavior described by this statistical law, in spite of the fact that no extremal process is known to occur.File in questo prodotto:
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