Surface acoustic cavitation understood via nanosecond electrochemistry

The application of high intensity ultrasound to liquids leads to cavitation. In contrast to the homogeneous situation this is poorly understood close to a surface despite the implications for many biological, chemical, and physical applications. By using ultrafast electrochemical equipment and array...

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Detalhes bibliográficos
Principais autores: Maisonhaute, E, White, P, Compton, R
Formato: Journal article
Idioma:English
Publicado em: 2001