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Gamma Ray Showers Observed at Ground Level in Coincidence With Downward Lightning Leadersopen access

Authors
Abbasi, R. U.Abu-Zayyad, T.Allen, M.Barcikowski, E.Belz, J. W.Bergman, D. R.Blake, S. A.Byrne, M.Cady, R.Cheon, Byung GuChiba, J.Chikawa, M.Fujii, T.Fukushima, M.Furlich, G.Goto, T.Hanlon, W.Hayashi, Y.Hayashida, N.Hibino, K.Honda, K.Ikeda, D.Inoue, N.Ishii, T.Ito, H.Ivanov, D.Jeong, S.Jui, C. C. H.Kadota, K.Kakimoto, F.Kalashev, O.Kasahara, K.Kawai, H.Kawakami, S.Kawata, K.Kido, E.Kim, Hang BaeKim, J. H.Kim, J. H.Kishigami, S. S.Krehbiel, P. R.Kuzmin, V.Kwon, Y. J.Lan, J.LeVon, R.Lundquist, J. P.Machida, K.Martens, K.Matuyama, T.Matthews, J. N.Minamino, M.Mukai, K.Myers, I.Nagataki, S.Nakamura, R.Nakamura, T.Nonaka, T.Ogio, S.Ohnishi, M.Ohoka, H.Oki, K.Okuda, T.Ono, M.Onogi, R.Oshima, A.Ozawa, S.Park, I. H.Pshirkov, M. S.Remington, J.Rison, W.Rodeheffer, D.Rodriguez, D. C.Rubtsov, G.Ryu, D.Sagawa, H.Saito, K.Sakaki, N.Sakurai, N.Seki, T.Sekino, K.Shah, P. D.Shibata, F.Shibata, T.Shimodaira, H.Shin, B. K.Shin, H. S.Smith, J. D.Sokolsky, P.Springer, R. W.Stokes, B. T.Stroman, T. A.Takai, H.Takeda, M.Takeishi, R.Taketa, A.Takita, M.Tameda, Y.Tanaka, H.Tanaka, K.Tanaka, M.Thomas, R. J.Thomas, S. B.Thomson, G. B.Tinyakov, P.Tkachev, I.Tokuno, H.Tomida, T.Troitsky, S.Tsunesada, Y.Uchihori, Y.Udo, S.Urban, F.Vasiloff, G.Wong, T.Yamamoto, M.Yamane, R.Yamaoka, H.Yamazaki, K.Yang, J.Yashiro, K.Yoneda, Y.Yoshida, S.Yoshii, H.Zundel, Z.
Issue Date
Jul-2018
Publisher
AMER GEOPHYSICAL UNION
Citation
JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES, v.123, no.13, pp.6864 - 6879
Indexed
SCIE
SCOPUS
Journal Title
JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES
Volume
123
Number
13
Start Page
6864
End Page
6879
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/149754
DOI
10.1029/2017JD027931
ISSN
2169-897X
Abstract
Bursts of gamma ray showers have been observed in coincidence with downward propagating negative leaders in lightning flashes by the Telescope Array Surface Detector (TASD). The TASD is a 700-km(2) cosmic ray observatory located in southwestern Utah, USA. In data collected between 2014 and 2016, correlated observations showing the structure and temporal development of three shower-producing flashes were obtained with a 3-D lightning mapping array, and electric field change measurements were obtained for an additional seven flashes, in both cases colocated with the TASD. National Lightning Detection Network information was also used throughout. The showers arrived in a sequence of 2-5 short-duration (10s) bursts over time intervals of several hundred microseconds and originated at an altitude of similar or equal to 3-5km above ground level during the first 1-2ms of downward negative leader breakdown at the beginning of cloud-to-ground lightning flashes. The shower footprints, associated waveforms and the effect of atmospheric propagation indicate that the showers consist primarily of downward-beamed gamma radiation. This has been supported by GEANT simulation studies, which indicate primary source fluxes of similar or equal to 10(12)-10(14) photons for 16 degrees half-angle beams. We conclude that the showers are terrestrial gamma ray flashes, similar to those observed by satellites, but that the ground-based observations are more representative of the temporal source activity and are also more sensitive than satellite observations, which detect only the most powerful terrestrial gamma ray flashes.
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