High-speed and Schlieren imaging have been used to visualize ignition transients, discharge behavior and flow fields of a plasma device integrating a low-power inductively coupled plasma torch, generating a high temperature thermal plasma, with a quenching device, able to cool the gaseous effluent down to biocompatible temperatures for effective use in biomedical applications.
High-Speed and Schlieren Imaging of a Low Power Inductively Coupled Plasma Source for Potential Biomedical Applications / Marco Boselli;Francesca Cavrini;Vittorio Colombo;Emanuele Ghedini;Matteo Gherardi;Romolo Laurita;Anna Liguori;Paolo Sanibondi;Augusto Stancampiano. - In: IEEE TRANSACTIONS ON PLASMA SCIENCE. - ISSN 0093-3813. - STAMPA. - 42:10(2014), pp. 2748-2749. [10.1109/TPS.2014.2319856]
High-Speed and Schlieren Imaging of a Low Power Inductively Coupled Plasma Source for Potential Biomedical Applications
BOSELLI, MARCO;CAVRINI, FRANCESCA;COLOMBO, VITTORIO;GHEDINI, EMANUELE;GHERARDI, MATTEO;LAURITA, ROMOLO;LIGUORI, ANNA;SANIBONDI, PAOLO;STANCAMPIANO, AUGUSTO
2014
Abstract
High-speed and Schlieren imaging have been used to visualize ignition transients, discharge behavior and flow fields of a plasma device integrating a low-power inductively coupled plasma torch, generating a high temperature thermal plasma, with a quenching device, able to cool the gaseous effluent down to biocompatible temperatures for effective use in biomedical applications.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.