Spatiotemporal Control of Ice Crystallization in Supercooled Water via an Ultrashort Laser Impulse.
Hozumi TakahashiTatsuya KonoKosuke SawadaSatoru KumanoYuka TsuriMihoko MaruyamaMasashi YoshimuraDaisuke TakahashiYukio KawamuraMatsuo UemuraSeiichiro NakabayashiYusuke MoriYoichiroh HosokawaHiroshi Y YoshikawaPublished in: The journal of physical chemistry letters (2023)
Focused irradiation with ultrashort laser pulses realized the fine spatiotemporal control of ice crystallization in supercooled water. An effective multiphoton excitation at the laser focus generated shockwaves and bubbles, which acted as an impulse for inducing ice crystal nucleation. The impulse that was localized close to the laser focus and accompanied by a small temperature elevation allowed the precise position control of ice crystallization and its observation with spatiotemporal resolution of micrometers and microseconds using a microscope. To verify the versatility of this laser method, we also applied it using various aqueous systems (e.g., plant extracts). The systematic study of crystallization probability revealed that laser-induced cavitation bubbles play a crucial role in inducing ice crystal nucleation. This method can be used as a tool for studying ice crystallization dynamics in various natural and biological phenomena.