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

R. U. Abbasi; T. Abu-Zayyad; M. Allen; E. Barcikowski; J. W. Belz; D. R. Bergman; S. A. Blake; M. Byrne; R. Cady; B. G. Cheon; J. Chiba; M. Chikawa; T. Fujii; M. Fukushima; G. Furlich; T. Goto; W. Hanlon; Y. Hayashi; N. Hayashida; K. Hibino; K. Honda; D. Ikeda; N. Inoue; T. Ishii; H. Ito; D. Ivanov; S. Jeong; C. C.H. Jui; K. Kadota; F. Kakimoto; O. Kalashev; K. Kasahara; H. Kawai; S. Kawakami; K. Kawata; E. Kido; H. B. Kim; J. H. Kim; J. H. Kim; S. S. Kishigami; P. R. Krehbiel; V. Kuzmin; Y. J. Kwon; J. Lan; R. LeVon; J. P. Lundquist; K. Machida; K. Martens; T. Matuyama; J. N. Matthews; M. Minamino; K. Mukai; I. Myers; S. Nagataki; R. Nakamura; T. Nakamura; T. Nonaka; S. Ogio; M. Ohnishi; H. Ohoka; K. Oki; T. Okuda; M. Ono; R. Onogi; A. Oshima; S. Ozawa; I. H. Park; M. S. Pshirkov; J. Remington; W. Rison; D. Rodeheffer; D. C. Rodriguez; G. Rubtsov; D. Ryu; H. Sagawa; K. Saito; N. Sakaki; N. Sakurai; T. Seki; K. Sekino; P. D. Shah; F. Shibata; T. Shibata; H. Shimodaira; B. K. Shin; H. S. Shin; J. D. Smith; P. Sokolsky; R. W. Springer; B. T. Stokes; T. A. Stroman; H. Takai; M. Takeda; R. Takeishi; A. Taketa; M. Takita; Y. Tameda; H. Tanaka; K. Tanaka; M. Tanaka; R. J. Thomas; S. B. Thomas; G. B. Thomson; P. Tinyakov; I. Tkachev; H. Tokuno; T. Tomida; S. Troitsky; Y. Tsunesada; Y. Uchihori; S. Udo; F. Urban; G. Vasiloff; T. Wong; M. Yamamoto; R. Yamane; H. Yamaoka; K. Yamazaki; J. Yang; K. Yashiro; Y. Yoneda; S. Yoshida; H. Yoshii; Z. Zundel

doi:10.1029/2017JD027931

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

R. U. Abbasi, T. Abu-Zayyad, M. Allen, E. Barcikowski, J. W. Belz, D. R. Bergman, S. A. Blake, M. Byrne, R. Cady, B. G. Cheon, J. Chiba, M. Chikawa, T. Fujii, M. Fukushima, G. Furlich, T. Goto, W. Hanlon, Y. Hayashi, N. Hayashida, K. HibinoK. Honda, D. Ikeda, N. Inoue, T. Ishii, H. Ito, D. Ivanov, S. Jeong, C. C.H. Jui, K. Kadota, F. Kakimoto, O. Kalashev, K. Kasahara, H. Kawai, S. Kawakami, K. Kawata, E. Kido, H. B. Kim, J. H. Kim, J. H. Kim, S. S. Kishigami, P. R. Krehbiel, V. Kuzmin, Y. J. Kwon, J. Lan, R. LeVon, J. P. Lundquist, K. Machida, K. Martens, T. Matuyama, J. N. Matthews, M. Minamino, K. Mukai, I. Myers, S. Nagataki, R. Nakamura, T. Nakamura, T. Nonaka, S. Ogio, M. Ohnishi, H. Ohoka, K. Oki, T. Okuda, M. Ono, R. Onogi, A. Oshima, S. Ozawa, I. H. Park, M. S. Pshirkov, J. Remington, W. Rison, D. Rodeheffer, D. C. Rodriguez, G. Rubtsov, D. Ryu, H. Sagawa, K. Saito, N. Sakaki, N. Sakurai, T. Seki, K. Sekino, P. D. Shah, F. Shibata, T. Shibata, H. Shimodaira, B. K. Shin, H. S. Shin, J. D. Smith, P. Sokolsky, R. W. Springer, B. T. Stokes, T. A. Stroman, H. Takai, M. Takeda, R. Takeishi, A. Taketa, M. Takita, Y. Tameda, H. Tanaka, K. Tanaka, M. Tanaka, R. J. Thomas, S. B. Thomas, G. B. Thomson, P. Tinyakov, I. Tkachev, H. Tokuno, T. Tomida, S. Troitsky, Y. Tsunesada, Y. Uchihori, S. Udo, F. Urban, G. Vasiloff, T. Wong, M. Yamamoto, R. Yamane, H. Yamaoka, K. Yamazaki, J. Yang, K. Yashiro, Y. Yoneda, S. Yoshida, H. Yoshii, Z. Zundel

Department of Physics

Research output: Contribution to journal › Article › peer-review

52 Citations (Scopus)

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-km² 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 (≤10 μs) bursts over time intervals of several hundred microseconds and originated at an altitude of ≃3–5 km above ground level during the first 1–2 ms 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 ≃10¹²–10¹⁴ photons for 16° 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.

Original language	English
Pages (from-to)	6864-6879
Number of pages	16
Journal	Journal of Geophysical Research: Atmospheres
Volume	123
Issue number	13
DOIs	https://doi.org/10.1029/2017JD027931
Publication status	Published - 2018 Jul 16

Bibliographical note

Funding Information:
The lightning mapping array used in this study was developed and operated with the support of NSF grants AGS-1205727 and AGS-1613260. The Telescope Array experiment is supported by the Japan Society for the Promotion of Science through Grants-in-Aids for Scientific Research on Specially Promoted Research (15H05693) and for Scientific Research (S) (15H05741), and the Inter-University Research Program of the Institute for Cosmic Ray Research; by the U.S. National Science Foundation awards PHY-0307098, PHY-0601915, PHY-0649681, PHY-0703893, PHY-0758342, PHY-0848320, PHY-1069280, PHY-1069286, PHY-1404495 and PHY-1404502; by the National Research Foundation of Korea (2015R1A2A1A01006870, 2015R1A2A1A15055344, 2016R1A5A1013277, 2007-0093860, 2016R1A2B4014967, 2017K1A4A3015188); by the Russian Academy of Sciences, RFBR grant 16-02-00962a (INR), IISN project No. 4.4502.13, and Belgian Science Policy under IUAP VII/37 (ULB). The foundations of Ezekiel R. and Edna Wattis Dumke, Willard L. Eccles, and George S. and Dolores Doré Eccles all helped with generous donations. The State of Utah supported the project through its Economic Development Board, and the University of Utah through the Office of the Vice President for Research. The experimental site became available through the cooperation of the Utah School and Institutional Trust Lands Administration (SITLA), U.S. Bureau of Land Management (BLM), and the U.S. Air Force. We appreciate the assistance of the State of Utah and Fillmore offices of the BLM in crafting the Plan of Development for the site. We also wish to thank the people and the officials of Millard County, Utah, for their steadfast and warm support. We gratefully acknowledge the contributions from the technical staffs of our home institutions. An allocation of computer time from the Center for High Performance Computing at the University of Utah is gratefully acknowledged. We thank VAISALA for providing NLDN data under their academic research use policy. Data that support the conclusions presented in the manuscript are provided in the figures of the paper and in the additional tables and figures of the supporting information.

Publisher Copyright:
©2018. American Geophysical Union. All Rights Reserved.

All Science Journal Classification (ASJC) codes

Geophysics
Atmospheric Science
Earth and Planetary Sciences (miscellaneous)
Space and Planetary Science

Access to Document

10.1029/2017JD027931

Cite this

Abbasi, R. U., Abu-Zayyad, T., Allen, M., Barcikowski, E., Belz, J. W., Bergman, D. R., Blake, S. A., Byrne, M., Cady, R., Cheon, B. G., Chiba, J., Chikawa, M., Fujii, T., Fukushima, M., Furlich, G., Goto, T., Hanlon, W., Hayashi, Y., Hayashida, N., ... Zundel, Z. (2018). Gamma Ray Showers Observed at Ground Level in Coincidence With Downward Lightning Leaders. Journal of Geophysical Research: Atmospheres, 123(13), 6864-6879. https://doi.org/10.1029/2017JD027931

@article{fccf2e981875474abd63e832635d9d62,

title = "Gamma Ray Showers Observed at Ground Level in Coincidence With Downward Lightning Leaders",

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-km2 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 (≤10 μs) bursts over time intervals of several hundred microseconds and originated at an altitude of ≃3–5 km above ground level during the first 1–2 ms 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 ≃1012–1014 photons for 16° 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.",

author = "Abbasi, {R. U.} and T. Abu-Zayyad and M. Allen and E. Barcikowski and Belz, {J. W.} and Bergman, {D. R.} and Blake, {S. A.} and M. Byrne and R. Cady and Cheon, {B. G.} and J. Chiba and M. Chikawa and T. Fujii and M. Fukushima and G. Furlich and T. Goto and W. Hanlon and Y. Hayashi and N. Hayashida and K. Hibino and K. Honda and D. Ikeda and N. Inoue and T. Ishii and H. Ito and D. Ivanov and S. Jeong and Jui, {C. C.H.} and K. Kadota and F. Kakimoto and O. Kalashev and K. Kasahara and H. Kawai and S. Kawakami and K. Kawata and E. Kido and Kim, {H. B.} and Kim, {J. H.} and Kim, {J. H.} and Kishigami, {S. S.} and Krehbiel, {P. R.} and V. Kuzmin and Kwon, {Y. J.} and J. Lan and R. LeVon and Lundquist, {J. P.} and K. Machida and K. Martens and T. Matuyama and Matthews, {J. N.} and M. Minamino and K. Mukai and I. Myers and S. Nagataki and R. Nakamura and T. Nakamura and T. Nonaka and S. Ogio and M. Ohnishi and H. Ohoka and K. Oki and T. Okuda and M. Ono and R. Onogi and A. Oshima and S. Ozawa and Park, {I. H.} and Pshirkov, {M. S.} and J. Remington and W. Rison and D. Rodeheffer and Rodriguez, {D. C.} and G. Rubtsov and D. Ryu and H. Sagawa and K. Saito and N. Sakaki and N. Sakurai and T. Seki and K. Sekino and Shah, {P. D.} and F. Shibata and T. Shibata and H. Shimodaira and Shin, {B. K.} and Shin, {H. S.} and Smith, {J. D.} and P. Sokolsky and Springer, {R. W.} and Stokes, {B. T.} and Stroman, {T. A.} and H. Takai and M. Takeda and R. Takeishi and A. Taketa and M. Takita and Y. Tameda and H. Tanaka and K. Tanaka and M. Tanaka and Thomas, {R. J.} and Thomas, {S. B.} and Thomson, {G. B.} and P. Tinyakov and I. Tkachev and H. Tokuno and T. Tomida and S. Troitsky and Y. Tsunesada and Y. Uchihori and S. Udo and F. Urban and G. Vasiloff and T. Wong and M. Yamamoto and R. Yamane and H. Yamaoka and K. Yamazaki and J. Yang and K. Yashiro and Y. Yoneda and S. Yoshida and H. Yoshii and Z. Zundel",

note = "Funding Information: The lightning mapping array used in this study was developed and operated with the support of NSF grants AGS-1205727 and AGS-1613260. The Telescope Array experiment is supported by the Japan Society for the Promotion of Science through Grants-in-Aids for Scientific Research on Specially Promoted Research (15H05693) and for Scientific Research (S) (15H05741), and the Inter-University Research Program of the Institute for Cosmic Ray Research; by the U.S. National Science Foundation awards PHY-0307098, PHY-0601915, PHY-0649681, PHY-0703893, PHY-0758342, PHY-0848320, PHY-1069280, PHY-1069286, PHY-1404495 and PHY-1404502; by the National Research Foundation of Korea (2015R1A2A1A01006870, 2015R1A2A1A15055344, 2016R1A5A1013277, 2007-0093860, 2016R1A2B4014967, 2017K1A4A3015188); by the Russian Academy of Sciences, RFBR grant 16-02-00962a (INR), IISN project No. 4.4502.13, and Belgian Science Policy under IUAP VII/37 (ULB). The foundations of Ezekiel R. and Edna Wattis Dumke, Willard L. Eccles, and George S. and Dolores Dor{\'e} Eccles all helped with generous donations. The State of Utah supported the project through its Economic Development Board, and the University of Utah through the Office of the Vice President for Research. The experimental site became available through the cooperation of the Utah School and Institutional Trust Lands Administration (SITLA), U.S. Bureau of Land Management (BLM), and the U.S. Air Force. We appreciate the assistance of the State of Utah and Fillmore offices of the BLM in crafting the Plan of Development for the site. We also wish to thank the people and the officials of Millard County, Utah, for their steadfast and warm support. We gratefully acknowledge the contributions from the technical staffs of our home institutions. An allocation of computer time from the Center for High Performance Computing at the University of Utah is gratefully acknowledged. We thank VAISALA for providing NLDN data under their academic research use policy. Data that support the conclusions presented in the manuscript are provided in the figures of the paper and in the additional tables and figures of the supporting information. Publisher Copyright: {\textcopyright}2018. American Geophysical Union. All Rights Reserved.",

year = "2018",

month = jul,

day = "16",

doi = "10.1029/2017JD027931",

language = "English",

volume = "123",

pages = "6864--6879",

journal = "Journal of Geophysical Research: Atmospheres",

issn = "2169-897X",

number = "13",

}

Abbasi, RU, Abu-Zayyad, T, Allen, M, Barcikowski, E, Belz, JW, Bergman, DR, Blake, SA, Byrne, M, Cady, R, Cheon, BG, Chiba, 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, CCH, Kadota, K, Kakimoto, F, Kalashev, O, Kasahara, K, Kawai, H, Kawakami, S, Kawata, K, Kido, E, Kim, HB, Kim, JH, Kim, JH, Kishigami, SS, Krehbiel, PR, Kuzmin, V, Kwon, YJ, Lan, J, LeVon, R, Lundquist, JP, Machida, K, Martens, K, Matuyama, T, Matthews, JN, 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, IH, Pshirkov, MS, Remington, J, Rison, W, Rodeheffer, D, Rodriguez, DC, Rubtsov, G, Ryu, D, Sagawa, H, Saito, K, Sakaki, N, Sakurai, N, Seki, T, Sekino, K, Shah, PD, Shibata, F, Shibata, T, Shimodaira, H, Shin, BK, Shin, HS, Smith, JD, Sokolsky, P, Springer, RW, Stokes, BT, Stroman, TA, Takai, H, Takeda, M, Takeishi, R, Taketa, A, Takita, M, Tameda, Y, Tanaka, H, Tanaka, K, Tanaka, M, Thomas, RJ, Thomas, SB, Thomson, GB, 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 2018, 'Gamma Ray Showers Observed at Ground Level in Coincidence With Downward Lightning Leaders', Journal of Geophysical Research: Atmospheres, vol. 123, no. 13, pp. 6864-6879. https://doi.org/10.1029/2017JD027931

TY - JOUR

T1 - Gamma Ray Showers Observed at Ground Level in Coincidence With Downward Lightning Leaders

AU - Abbasi, R. U.

AU - Abu-Zayyad, T.

AU - Allen, M.

AU - Barcikowski, E.

AU - Belz, J. W.

AU - Bergman, D. R.

AU - Blake, S. A.

AU - Byrne, M.

AU - Cady, R.

AU - Cheon, B. G.

AU - Chiba, J.

AU - Chikawa, M.

AU - Fujii, T.

AU - Fukushima, M.

AU - Furlich, G.

AU - Goto, T.

AU - Hanlon, W.

AU - Hayashi, Y.

AU - Hayashida, N.

AU - Hibino, K.

AU - Honda, K.

AU - Ikeda, D.

AU - Inoue, N.

AU - Ishii, T.

AU - Ito, H.

AU - Ivanov, D.

AU - Jeong, S.

AU - Jui, C. C.H.

AU - Kadota, K.

AU - Kakimoto, F.

AU - Kalashev, O.

AU - Kasahara, K.

AU - Kawai, H.

AU - Kawakami, S.

AU - Kawata, K.

AU - Kido, E.

AU - Kim, H. B.

AU - Kim, J. H.

AU - Kishigami, S. S.

AU - Krehbiel, P. R.

AU - Kuzmin, V.

AU - Kwon, Y. J.

AU - Lan, J.

AU - LeVon, R.

AU - Lundquist, J. P.

AU - Machida, K.

AU - Martens, K.

AU - Matuyama, T.

AU - Matthews, J. N.

AU - Minamino, M.

AU - Mukai, K.

AU - Myers, I.

AU - Nagataki, S.

AU - Nakamura, R.

AU - Nakamura, T.

AU - Nonaka, T.

AU - Ogio, S.

AU - Ohnishi, M.

AU - Ohoka, H.

AU - Oki, K.

AU - Okuda, T.

AU - Ono, M.

AU - Onogi, R.

AU - Oshima, A.

AU - Ozawa, S.

AU - Park, I. H.

AU - Pshirkov, M. S.

AU - Remington, J.

AU - Rison, W.

AU - Rodeheffer, D.

AU - Rodriguez, D. C.

AU - Rubtsov, G.

AU - Ryu, D.

AU - Sagawa, H.

AU - Saito, K.

AU - Sakaki, N.

AU - Sakurai, N.

AU - Seki, T.

AU - Sekino, K.

AU - Shah, P. D.

AU - Shibata, F.

AU - Shibata, T.

AU - Shimodaira, H.

AU - Shin, B. K.

AU - Shin, H. S.

AU - Smith, J. D.

AU - Sokolsky, P.

AU - Springer, R. W.

AU - Stokes, B. T.

AU - Stroman, T. A.

AU - Takai, H.

AU - Takeda, M.

AU - Takeishi, R.

AU - Taketa, A.

AU - Takita, M.

AU - Tameda, Y.

AU - Tanaka, H.

AU - Tanaka, K.

AU - Tanaka, M.

AU - Thomas, R. J.

AU - Thomas, S. B.

AU - Thomson, G. B.

AU - Tinyakov, P.

AU - Tkachev, I.

AU - Tokuno, H.

AU - Tomida, T.

AU - Troitsky, S.

AU - Tsunesada, Y.

AU - Uchihori, Y.

AU - Udo, S.

AU - Urban, F.

AU - Vasiloff, G.

AU - Wong, T.

AU - Yamamoto, M.

AU - Yamane, R.

AU - Yamaoka, H.

AU - Yamazaki, K.

AU - Yang, J.

AU - Yashiro, K.

AU - Yoneda, Y.

AU - Yoshida, S.

AU - Yoshii, H.

AU - Zundel, Z.

N1 - Funding Information: The lightning mapping array used in this study was developed and operated with the support of NSF grants AGS-1205727 and AGS-1613260. The Telescope Array experiment is supported by the Japan Society for the Promotion of Science through Grants-in-Aids for Scientific Research on Specially Promoted Research (15H05693) and for Scientific Research (S) (15H05741), and the Inter-University Research Program of the Institute for Cosmic Ray Research; by the U.S. National Science Foundation awards PHY-0307098, PHY-0601915, PHY-0649681, PHY-0703893, PHY-0758342, PHY-0848320, PHY-1069280, PHY-1069286, PHY-1404495 and PHY-1404502; by the National Research Foundation of Korea (2015R1A2A1A01006870, 2015R1A2A1A15055344, 2016R1A5A1013277, 2007-0093860, 2016R1A2B4014967, 2017K1A4A3015188); by the Russian Academy of Sciences, RFBR grant 16-02-00962a (INR), IISN project No. 4.4502.13, and Belgian Science Policy under IUAP VII/37 (ULB). The foundations of Ezekiel R. and Edna Wattis Dumke, Willard L. Eccles, and George S. and Dolores Doré Eccles all helped with generous donations. The State of Utah supported the project through its Economic Development Board, and the University of Utah through the Office of the Vice President for Research. The experimental site became available through the cooperation of the Utah School and Institutional Trust Lands Administration (SITLA), U.S. Bureau of Land Management (BLM), and the U.S. Air Force. We appreciate the assistance of the State of Utah and Fillmore offices of the BLM in crafting the Plan of Development for the site. We also wish to thank the people and the officials of Millard County, Utah, for their steadfast and warm support. We gratefully acknowledge the contributions from the technical staffs of our home institutions. An allocation of computer time from the Center for High Performance Computing at the University of Utah is gratefully acknowledged. We thank VAISALA for providing NLDN data under their academic research use policy. Data that support the conclusions presented in the manuscript are provided in the figures of the paper and in the additional tables and figures of the supporting information. Publisher Copyright: ©2018. American Geophysical Union. All Rights Reserved.

PY - 2018/7/16

Y1 - 2018/7/16

N2 - 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-km2 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 (≤10 μs) bursts over time intervals of several hundred microseconds and originated at an altitude of ≃3–5 km above ground level during the first 1–2 ms 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 ≃1012–1014 photons for 16° 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.

AB - 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-km2 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 (≤10 μs) bursts over time intervals of several hundred microseconds and originated at an altitude of ≃3–5 km above ground level during the first 1–2 ms 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 ≃1012–1014 photons for 16° 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.

UR - http://www.scopus.com/inward/record.url?scp=85050382187&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85050382187&partnerID=8YFLogxK

U2 - 10.1029/2017JD027931

DO - 10.1029/2017JD027931

M3 - Article

AN - SCOPUS:85050382187

SN - 2169-897X

VL - 123

SP - 6864

EP - 6879

JO - Journal of Geophysical Research: Atmospheres

JF - Journal of Geophysical Research: Atmospheres

IS - 13

ER -

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

Abstract

Bibliographical note

All Science Journal Classification (ASJC) codes

Access to Document

Other files and links

Fingerprint

Cite this