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Nature communications
Apr 24, 2015;6 6977.

Evolutionary games of condensates in coupled birth-death processes.

Johannes Knebel, Markus F Weber, Torben Krüger, Erwin Frey
Author Information
  1. Johannes Knebel: Arnold Sommerfeld Center for Theoretical Physics and Center for NanoScience, Department of Physics, Ludwig-Maximilians-Universität München, Theresienstraße 37, 80333 München, Germany.
  2. Markus F Weber: Arnold Sommerfeld Center for Theoretical Physics and Center for NanoScience, Department of Physics, Ludwig-Maximilians-Universität München, Theresienstraße 37, 80333 München, Germany. ORCID
  3. Torben Krüger: IST Austria, Am Campus 1, 3400 Klosterneuburg, Austria.
  4. Erwin Frey: Arnold Sommerfeld Center for Theoretical Physics and Center for NanoScience, Department of Physics, Ludwig-Maximilians-Universität München, Theresienstraße 37, 80333 München, Germany.
PMID: 25908384 DOI: 10.1038/ncomms7977

Abstract

Condensation phenomena arise through a collective behaviour of particles. They are observed in both classical and quantum systems, ranging from the formation of traffic jams in mass transport models to the macroscopic occupation of the energetic ground state in ultra-cold bosonic gases (Bose-Einstein condensation). Recently, it has been shown that a driven and dissipative system of bosons may form multiple condensates. Which states become the condensates has, however, remained elusive thus far. The dynamics of this condensation are described by coupled birth-death processes, which also occur in evolutionary game theory. Here we apply concepts from evolutionary game theory to explain the formation of multiple condensates in such driven-dissipative bosonic systems. We show that the vanishing of relative entropy production determines their selection. The condensation proceeds exponentially fast, but the system never comes to rest. Instead, the occupation numbers of condensates may oscillate, as we demonstrate for a rock-paper-scissors game of condensates.

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MeSH Term

Algorithms
Biological Evolution
Chemical Phenomena
Game Theory
Journal Article Research Support, Non-U.S. Gov't
Article has an altmetric score of 44

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