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Quantum Nash Equilibria and Quantum Computing

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  • Philip V. Fellman
  • Jonathan Vos Post

Abstract

In this paper we review our earlier work on quantum computing and the Nash Equilibrium, in particular, tracing the history of the discovery of new Nash Equilibria and then reviewing the ways in which quantum computing may be expected to generate new classes of Nash equilibria. We then extend this work through a substantive analysis of examples provided by Meyer, Flitney, Iqbal and Weigert and Cheon and Tsutsui with respect to quantized games, quantum game strategies and the extension of Nash Equilibrium to solvable games in Hilbert space. Finally, we review earlier work by Sato, Taiji and Ikegami on non-linear computation and computational classes by way of reference to coherence, decoherence and quantum computating systems.

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  • Philip V. Fellman & Jonathan Vos Post, 2007. "Quantum Nash Equilibria and Quantum Computing," Papers 0707.0324, arXiv.org.
    • Handle: RePEc:arx:papers:0707.0324
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    References listed on IDEAS

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    1. Quint, Thomas & Shubik, Martin, 2002. "A bound on the number of Nash equilibria in a coordination game," Economics Letters, Elsevier, vol. 77(3), pages 323-327, November.
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    3. McLennan, Andrew & Park, In-Uck, 1999. "Generic 4 x 4 Two Person Games Have at Most 15 Nash Equilibria," Games and Economic Behavior, Elsevier, vol. 26(1), pages 111-130, January.
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