Samenvatting
When a high-energy cosmic-ray particle enters the upper layer of the
atmosphere, it generates many secondary high-energy particles and forms
a cosmic-ray-induced air shower. In the leading plasma of this shower
electric currents are induced that emit electromagnetic radiation. These
radio waves can be detected with LOw-Frequency ARray (LOFAR) radio
telescope. Events have been collected under fair-weather conditions as
well as under atmospheric conditions where thunderstorms occur. For the
events under the fair weather conditions the emission process is well
understood by present models. For the events measured under the
thunderstorm conditions, we observe a large fraction of the circular
polarization near the core of the shower which is not shown in the
events under the fair-weather conditions. This can be explained by the
change of direction of the atmospheric electric fields with altitude.
Therefore, measuring the circular polarization of radio emission from
cosmic ray extensive air showers during the thunderstorm conditions
helps to have a better understanding about the structure of atmospheric
electric fields in the thunderclouds.
Originele taal-2 | English |
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Tijdschrift | EGU General Assembly |
Volume | 18 |
Status | Published - 1-apr.-2016 |
Evenement | EGU General Assembly 2016 - Vienna, Austria Duur: 17-apr.-2016 → 22-apr.-2016 http://www.egu2016.eu |