This work presents the development and use of an isotropic electric field (E-field) sensor to measure the E-field radiated by hyperthermia (HT) devices. By conducting measurements within a liquid phantom, the results demonstrate that, in radiative HT devices, the main component of the E-field is aligned along the cranio-caudal direction of the human body.
Electric Field Measurement in Radiative Hyperthermia Applications / Di Cristofano, M.; Lalli, L.; Paglialunga, G.; Cavagnaro, M.. - (2025). (Intervento presentato al convegno 47th Annual International Conference of the IEEE Engineering in Medicine and Biology tenutosi a Copenhagen (Denmark)).
Electric Field Measurement in Radiative Hyperthermia Applications
M. Di Cristofano;M. Cavagnaro
2025
Abstract
This work presents the development and use of an isotropic electric field (E-field) sensor to measure the E-field radiated by hyperthermia (HT) devices. By conducting measurements within a liquid phantom, the results demonstrate that, in radiative HT devices, the main component of the E-field is aligned along the cranio-caudal direction of the human body.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
