Changes in Gene Expression After Exposing Arabidopsis thaliana Plants to Nanosecond High Amplitude Electromagnetic Field Pulses

Abstract: The biological effects of exposure to electromagnetic fields due to wireless technologies and connected devices are a subject of particular research interest. Ultrashort high‐amplitude electromagnetic field pulses delivered to biological samples using immersed electrodes in a dedicated cuvette have widely demonstrated their effectiveness in triggering several cell responses including increased cytosolic calcium concentration and reactive oxygen species (ROS) production. In contrast, the effects of these pulses… Show more

“…Pulses of 1.1 kA in the 50 Ω circuit correspond to pulsed voltages of 55 kV, e.g. applicable to uni-polar nanosecondpulse dielectric barrier discharge for producing non-thermal plasma at atmospheric pressure [43] ; or the research of effects of ns and sub-ns pulses on biological cells [44][45][46][47] .…”

High-repetition-rate source of nanosecond duration kA-current pulses driven by relativistic laser pulses

“…Pulses of 1.1 kA in the 50 Ω circuit correspond to pulsed voltages of 55 kV, e.g. applicable to uni-polar nanosecondpulse dielectric barrier discharge for producing non-thermal plasma at atmospheric pressure [43] ; or the research of effects of ns and sub-ns pulses on biological cells [44][45][46][47] .…”

High-repetition-rate source of nanosecond duration kA-current pulses driven by relativistic laser pulses