Plasma-Driven Sciences: Exploring Complex Interactions at Plasma Boundaries

Plasma Pub Date : 2024-02-27 DOI:10.3390/plasma7010011
K. Ishikawa, K. Koga, Noriyasu Ohno
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引用次数: 0

Abstract

Plasma-driven science is defined as the artificial control of physical plasma-driven phenomena based on complex interactions between nonequilibrium open systems. Recently, peculiar phenomena related to physical plasma have been discovered in plasma boundary regions, either naturally or artificially. Because laboratory plasma can be produced under nominal conditions around atmospheric pressure and room temperature, phenomena related to the interaction of plasma with liquid solutions and living organisms at the plasma boundaries are emerging. Currently, the relationships between these complex interactions should be solved using science-based data-driven approaches; these approaches require a reliable and comprehensive database of dynamic changes in the chemical networks of elementary reactions. Consequently, the elucidation of the mechanisms governing plasma-driven phenomena and the discovery of the latent actions behind these plasma-driven phenomena will be realized through plasma-driven science.
等离子体驱动科学:探索等离子体边界的复杂相互作用
等离子体驱动科学的定义是,基于非平衡开放系统之间复杂的相互作用,对物理等离子体驱动现象进行人工控制。最近,人们在等离子体边界区域发现了与物理等离子体有关的自然或人工奇特现象。由于实验室等离子体可在大气压和室温左右的额定条件下产生,等离子体与液态溶液和生物体在等离子体边界的相互作用现象正在出现。目前,这些复杂的相互作用之间的关系应采用以科学为基础的数据驱动方法来解决;这些方法需要一个可靠而全面的基本反应化学网络动态变化数据库。因此,阐明等离子体驱动现象的机理和发现这些等离子体驱动现象背后的潜在作用将通过等离子体驱动科学来实现。
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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CiteScore
2.30
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0.00%
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