Defining quantum games

IF 5.8 2区物理与天体物理 Q1 OPTICS

EPJ Quantum Technology Pub Date : 2025-01-22 DOI:10.1140/epjqt/s40507-025-00308-7

Laura Piispanen, Marcel Pfaffhauser, James Wootton, Julian Togelius, Annakaisa Kultima

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Abstract

In this research article, we survey existing quantum physics-related games and, based on this survey, propose a definition for the concept of quantum games. We define a quantum game as any type of rule-based game that either employs the principles of quantum physics or references quantum phenomena or the theory of quantum physics through any of three proposed dimensions: the perceivable dimension of quantum physics, the dimension of quantum technologies, and the dimension of scientific purposes, such as citizen science or education. We also discuss the concept of quantum computer games, which are games on quantum computers, as well as definitions for the concept of science games. Various games explore quantum physics and quantum computing through digital, analogue, and hybrid means, with various incentives driving their development. As interest in games as educational tools for supporting quantum literacy grows, understanding the diverse landscape of quantum games becomes increasingly important. We propose that the three dimensions of quantum games identified in this article be used for designing, analysing, and defining the phenomenon of quantum games.

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定义量子游戏

在这篇研究文章中，我们调查了现有的量子物理相关游戏，并在此基础上提出了量子游戏概念的定义。我们将量子游戏定义为任何类型的基于规则的游戏，这些游戏要么采用量子物理原理，要么通过三个提出的维度中的任何一个引用量子现象或量子物理理论：量子物理的可感知维度、量子技术维度和科学目的维度，如公民科学或教育。我们还讨论了量子计算机游戏的概念，量子计算机游戏是在量子计算机上的游戏，以及科学游戏概念的定义。各种游戏通过数字、模拟和混合手段探索量子物理和量子计算，各种激励机制推动其发展。随着人们对游戏作为支持量子素养的教育工具的兴趣的增长，理解量子游戏的多样性变得越来越重要。我们建议将本文中确定的量子博弈的三个维度用于设计、分析和定义量子博弈现象。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

EPJ Quantum Technology Physics and Astronomy-Atomic and Molecular Physics, and Optics

CiteScore

7.70

自引率

7.50%

发文量

审稿时长

71 days

期刊介绍： Driven by advances in technology and experimental capability, the last decade has seen the emergence of quantum technology: a new praxis for controlling the quantum world. It is now possible to engineer complex, multi-component systems that merge the once distinct fields of quantum optics and condensed matter physics. EPJ Quantum Technology covers theoretical and experimental advances in subjects including but not limited to the following: Quantum measurement, metrology and lithography Quantum complex systems, networks and cellular automata Quantum electromechanical systems Quantum optomechanical systems Quantum machines, engineering and nanorobotics Quantum control theory Quantum information, communication and computation Quantum thermodynamics Quantum metamaterials The effect of Casimir forces on micro- and nano-electromechanical systems Quantum biology Quantum sensing Hybrid quantum systems Quantum simulations.