In a previous study, an apparatus generating 1.8 GHz electromagnetic radiation for ''in vivo'' biomedical study was designed and implemented. The apparatus consisted of a reverberation chamber and it reproduced a habitat similar to the usual one for the laboratory animals. Plexiglas boxes with 300 cc physiological liquid were utilized as simple phantoms. For the measurements a small Electric Field Probe was used. The maximum SAR (Specific Absorption Rate) and average Power Efficiency Pe (SAR/input power) values obtained were quite low (''in vivo experiments'') and this was the drawback of the apparatus. In the present work, different modifications introduced in order to increase SAR and Power Efficiency are presented. In the new configurati...
International audienceAn in vitro system for 2.45 GHz microwave (MW) exposure with real-time fluores...
International audienceIn last decades, the widespread and daily use of radiofrequency systems has ma...
International audienceThis study deals with the design and calibration of the first mode-stirred rev...
In a previous study, an apparatus generating 1.8 GHz electromagnetic radiation for ''in vivo'' biome...
In a previous study, an apparatus generating 1.8 GHz electromagnetic radiation for “in vivo” biomedi...
ABSTRACT: In a previous study, an apparatus generating 1.8 GHz electromagnetic radiation for “in viv...
A system generating 1.8GHz electromagnetic fields for bio-medical and behavioral study on laboratory...
A system generating 1.8 GHz electromagnetic fields for bio-medical and behavioral study on laborator...
International audienceThe impact of RF radiation on the living constitutes a controversial topic, wh...
A system generating 1.8 GHz electromagnetic fields for bio-medical and behavioral study on laborator...
A medical device will emit electromagnetic radiation to its surrounding environment either actively ...
International audienceHumans are permanently exposed to multiple electromagnetic (EM) fields, potent...
International audienceSince the nineties, the development of wireless telecommunication systems has ...
International audienceAn in vitro system for 2.45 GHz microwave (MW) exposure with real-time fluores...
International audienceIn last decades, the widespread and daily use of radiofrequency systems has ma...
International audienceThis study deals with the design and calibration of the first mode-stirred rev...
In a previous study, an apparatus generating 1.8 GHz electromagnetic radiation for ''in vivo'' biome...
In a previous study, an apparatus generating 1.8 GHz electromagnetic radiation for “in vivo” biomedi...
ABSTRACT: In a previous study, an apparatus generating 1.8 GHz electromagnetic radiation for “in viv...
A system generating 1.8GHz electromagnetic fields for bio-medical and behavioral study on laboratory...
A system generating 1.8 GHz electromagnetic fields for bio-medical and behavioral study on laborator...
International audienceThe impact of RF radiation on the living constitutes a controversial topic, wh...
A system generating 1.8 GHz electromagnetic fields for bio-medical and behavioral study on laborator...
A medical device will emit electromagnetic radiation to its surrounding environment either actively ...
International audienceHumans are permanently exposed to multiple electromagnetic (EM) fields, potent...
International audienceSince the nineties, the development of wireless telecommunication systems has ...
International audienceAn in vitro system for 2.45 GHz microwave (MW) exposure with real-time fluores...
International audienceIn last decades, the widespread and daily use of radiofrequency systems has ma...
International audienceThis study deals with the design and calibration of the first mode-stirred rev...