Samenvatting
We report on a novel non-intrusive way to investigate electric fields in
thunderclouds.Energetic cosmic rays penetrating the atmosphere create a
particle avalanche called an extensive air shower. The front of the
shower is a plasma cloud that contains 10^6 or more free electrons and
positrons moving towards the Earth's surface at the speed of light. The
electric fields that exists in thunderclouds induces electric currents
in the plasma cloud that emit radio waves. The radio footprint for
intensity, linear and circular polarization thus contains the finger
print of the atmospheric electric fields along the path of the air
shower.Here we report on the analysis of many cosmic-ray radio
footprints as have been measured at LOFAR, a dense array of simple radio
antennas (several thousands of dual-polarized antennas) primarily
developed for radio-astronomy observations. We show that this method can
be used to determine the charge structure in thunderclouds and discuss
the accuracy of the method. We have observed seasonal dependencies.
Originele taal-2 | English |
---|---|
Artikelnummer | AE13A-2223 |
Tijdschrift | American Geophysical Union Fall Meeting |
Volume | 13 |
Status | Published - 1-dec.-2017 |