Plasma-Driven Sciences: Exploring Complex Interactions at Plasma Boundaries

TL;DR: Plasma-driven science explores complex interactions at plasma boundaries, investigating phenomena at the interface of plasma, liquids, and living organisms, requiring data-driven approaches and a comprehensive database to elucidate mechanisms and latent actions.

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.