A small scintillator-based detector for atmospheric ionization measurements has been developed, partly in response to a need for better ionization data in the weather-forming regions of the atmosphere and partly with the intention of producing a commercially available device. The device can measure both the count rate and energy of atmospheric ionizing radiation. Here we report results of a test flight over the UK in December 2017 where the detector was flown with two Geiger counters on a meteorological radiosonde. The count rate profile with height was consistent both with the Geigers and with previous work. The energy of incoming ionizing radiation increased substantially with altitude.
@article{arxiv.1804.07532,
title = {Miniaturized atmospheric ionization detector},
author = {Karen Aplin and Aaron Briggs and Adam Baird and Peter Hastings and R. Giles Harrison and Graeme Marlton},
journal= {arXiv preprint arXiv:1804.07532},
year = {2018}
}
Comments
Proc 18th Conference on Atmospheric Electricity, Nara, Japan, June 2018