Abstract
The following article is a continuation the article titled Quantum Game Theory — I: A Comprehensive Study [1], that appeared in the May issue of Resonance.
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Indranil Ghosh, Quantum Game Theory-I, Resonance, Vo1.26, No.5, pp.671–684, 2021.
Adrian P Flitney and Derek Abbott, An introduction to quantum game theory, Fluctuation and Noise Letters, 2(04):R175–R187, 2002.
J Orlin Grabbe, An introduction to quantum game theory, arXiv preprint quant-ph/0506219, 2005.
Indranil Ghosh, indrag49/quantum-game-theory: Python program written to run simulations on quantum game theory models. https://github.com/indrag49/Quantum-Game-Theory, 2020.
Steven Kuhn, Prisoner’s Dilemma, 1997.
Methamagical Themas and Douglas Hofstadter, The Prisoner’s Dilemma.
Jens Eisert, Martin Wilkens, and Maciej Lewenstein, Quantum games and quantum strategies, Physical Review Letters, 83(15):3077, 1999.
Jiangfeng Du, Hui Li, Xiaodong Xu, Mingjun Shi, Jihui Wu, Xianyi Zhou, and Rongdian Han, Experimental realization of quantum games on a quantum computer, Physical Review Letters, 88(13):137902, 2002.
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Indranil Ghosh is a graduate student doing post graduation in physics specialising in condensed matter physics, from the Department of Physics, Jadavpur University, Kolkata. His research interests include computational physics, numerical computing, quantum mechanics and quantum computing.
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Ghosh, I. Quantum Game Theory — II. Reson 26, 791–812 (2021). https://doi.org/10.1007/s12045-021-1180-6
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DOI: https://doi.org/10.1007/s12045-021-1180-6