Intense and energetic atmospheric plasma was achieved by jet-to-jet coupling using an array of plasma jets arranged in an axisymmetric structure. To highlight the effects of pulse repetition frequency, peak voltage and mass flow rate on the transition from a coupled mode to an uncoupled one, qualitative results coming from iCCD imaging of a nanopulsed Gatling machine gun-like plasma source will be shown. Moreover, results on surface modifications and bacterial inactivation will be presented.
iCCD Imaging of the Transition From Uncoupled to Coupled Mode in a Plasma Source for Biomedical and Materials Treatment Applications / Simone Bianconi;Francesca Cavrini;Vittorio Colombo;Matteo Gherardi;Romolo Laurita;Anna Liguori;Paolo Sanibondi;Augusto Stancampiano. - In: IEEE TRANSACTIONS ON PLASMA SCIENCE. - ISSN 0093-3813. - STAMPA. - 42:10(2014), pp. 2746-2747. [10.1109/TPS.2014.2321012]
iCCD Imaging of the Transition From Uncoupled to Coupled Mode in a Plasma Source for Biomedical and Materials Treatment Applications
CAVRINI, FRANCESCA;COLOMBO, VITTORIO;GHERARDI, MATTEO;LAURITA, ROMOLO;LIGUORI, ANNA;SANIBONDI, PAOLO;STANCAMPIANO, AUGUSTO
2014
Abstract
Intense and energetic atmospheric plasma was achieved by jet-to-jet coupling using an array of plasma jets arranged in an axisymmetric structure. To highlight the effects of pulse repetition frequency, peak voltage and mass flow rate on the transition from a coupled mode to an uncoupled one, qualitative results coming from iCCD imaging of a nanopulsed Gatling machine gun-like plasma source will be shown. Moreover, results on surface modifications and bacterial inactivation will be presented.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
