Recent Results on Science and Innovation Related to Electrical Processes of Thunderstorms

Christoph Köhn; Torsten Neubert; Martin Füllekrug; Ute Ebert; Sander Nijdam; Olivier Chanrion; Nikolai Østgaard; Martino Marisaldi; Serge Soula; Joan Montanyà; Francisco Gordillo-Vázquez; Alejandro Luque; Jannis Teunissen; Joachim Holbøll; Alec Bennett; Paul Smith; Victor Lorenzo; Hugh J. Christian; Søren F. Madsen; Diana Mihailova; Jean François Boissin; Stéphane Pedeboy; Laure Chaumat; Matthias Heumesser; Krystallia Dimitriadou; Carolina Maiorana; Simon Ghilain; Zaida Gomez Kuri; Adam Peverell; Michele Urbani; Thi Ny Kieu; Andy Martinez; Hani Francisco; Mojtaba Niknezhad; Miguel B. Teixeira-Gomes; Andrea Pizzuti; Marcelo Arcanjo; Shahriar Mirpour; Xue Bai; Victor Reglero

doi:10.1007/s10712-025-09891-x

Recent Results on Science and Innovation Related to Electrical Processes of Thunderstorms

Christoph Köhn^*
, Torsten Neubert
, Martin Füllekrug
, Ute Ebert
, Sander Nijdam
, Olivier Chanrion
, Nikolai Østgaard
, Martino Marisaldi
, Serge Soula
, Joan Montanyà
, Francisco Gordillo-Vázquez
, Alejandro Luque
, Jannis Teunissen
, Joachim Holbøll
, Alec Bennett
, Paul Smith
, Victor Lorenzo
, Hugh J. Christian
, Søren F. Madsen
, Diana Mihailova

Jean François Boissin, Stéphane Pedeboy, Laure Chaumat, Matthias Heumesser, Krystallia Dimitriadou, Carolina Maiorana, Simon Ghilain, Zaida Gomez Kuri, Adam Peverell, Michele Urbani, Thi Ny Kieu, Andy Martinez, Hani Francisco, Mojtaba Niknezhad, Miguel B. Teixeira-Gomes, Andrea Pizzuti, Marcelo Arcanjo, Shahriar Mirpour, Xue Bai, Victor Reglero

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

Abstract

Lightning is a highly energetic electric discharge process in our atmosphere, evolving in several complex stages. Lightning is recognized as an essential climate variable, as it affects the concentration of greenhouse gases. It also threatens electrical and electronic devices, in particular, on elevated structures like wind turbines, and it endangers aircraft built with modern composite materials with inherently low electric conductivity. During the past decades, our fundamental understanding of atmospheric electricity has continued to evolve. For example, during the past 30 years, discharge processes were discovered in the atmosphere above thunderstorms, the so-called transient luminous events (TLEs) in the stratosphere and mesosphere, and terrestrial gamma-ray flashes (TGFs), accompanied with beams of photons, electrons and positrons, were observed from low orbiting satellites passing over thunderstorms. Lightning-like discharges also appear in plasma and high-voltage technology. The SAINT network was formed to bring the different research fields together. SAINT was the “Science And INnovation of Thunderstorms” Marie Skłodowska-Curie Innovative Training Network of the European Union Horizon 2020 program. From 2017 to 2021, 15 PhD students observed lightning processes from satellites and ground, developed models and conducted laboratory experiments. The project bridged between geophysical research, plasma technology and relevant industries. The paper presents a summary of the findings of the SAINT network collaboration.

Original language	English
Journal	Surveys in Geophysics
Volume	46
Pages (from-to)	753–821
ISSN	0169-3298
DOIs	https://doi.org/10.1007/s10712-025-09891-x
Publication status	Published - 2025

Keywords

SAINT
Lightning
Streamers
Leaders
Teerestrial gamma-ray flashes
Transient luminous events
Laboratory experiments

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1007/s10712-025-09891-x

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Köhn, C., Neubert, T., Füllekrug, M., Ebert, U., Nijdam, S., Chanrion, O., Østgaard, N., Marisaldi, M., Soula, S., Montanyà, J., Gordillo-Vázquez, F., Luque, A., Teunissen, J., Holbøll, J., Bennett, A., Smith, P., Lorenzo, V., Christian, H. J., Madsen, S. F., ... Reglero, V. (2025). Recent Results on Science and Innovation Related to Electrical Processes of Thunderstorms. Surveys in Geophysics, 46, 753–821. https://doi.org/10.1007/s10712-025-09891-x

@article{9829e68db4af461b888488fa6e2131af,

title = "Recent Results on Science and Innovation Related to Electrical Processes of Thunderstorms",

abstract = "Lightning is a highly energetic electric discharge process in our atmosphere, evolving in several complex stages. Lightning is recognized as an essential climate variable, as it affects the concentration of greenhouse gases. It also threatens electrical and electronic devices, in particular, on elevated structures like wind turbines, and it endangers aircraft built with modern composite materials with inherently low electric conductivity. During the past decades, our fundamental understanding of atmospheric electricity has continued to evolve. For example, during the past 30 years, discharge processes were discovered in the atmosphere above thunderstorms, the so-called transient luminous events (TLEs) in the stratosphere and mesosphere, and terrestrial gamma-ray flashes (TGFs), accompanied with beams of photons, electrons and positrons, were observed from low orbiting satellites passing over thunderstorms. Lightning-like discharges also appear in plasma and high-voltage technology. The SAINT network was formed to bring the different research fields together. SAINT was the “Science And INnovation of Thunderstorms” Marie Sk{\l}odowska-Curie Innovative Training Network of the European Union Horizon 2020 program. From 2017 to 2021, 15 PhD students observed lightning processes from satellites and ground, developed models and conducted laboratory experiments. The project bridged between geophysical research, plasma technology and relevant industries. The paper presents a summary of the findings of the SAINT network collaboration.",

keywords = "SAINT, Lightning, Streamers, Leaders, Teerestrial gamma-ray flashes, Transient luminous events, Laboratory experiments",

author = "Christoph K{\"o}hn and Torsten Neubert and Martin F{\"u}llekrug and Ute Ebert and Sander Nijdam and Olivier Chanrion and Nikolai {\O}stgaard and Martino Marisaldi and Serge Soula and Joan Montany{\`a} and Francisco Gordillo-V{\'a}zquez and Alejandro Luque and Jannis Teunissen and Joachim Holb{\o}ll and Alec Bennett and Paul Smith and Victor Lorenzo and Christian, \{Hugh J.\} and Madsen, \{S{\o}ren F.\} and Diana Mihailova and Boissin, \{Jean Fran{\c c}ois\} and St{\'e}phane Pedeboy and Laure Chaumat and Matthias Heumesser and Krystallia Dimitriadou and Carolina Maiorana and Simon Ghilain and \{Gomez Kuri\}, Zaida and Adam Peverell and Michele Urbani and Kieu, \{Thi Ny\} and Andy Martinez and Hani Francisco and Mojtaba Niknezhad and Teixeira-Gomes, \{Miguel B.\} and Andrea Pizzuti and Marcelo Arcanjo and Shahriar Mirpour and Xue Bai and Victor Reglero",

year = "2025",

doi = "10.1007/s10712-025-09891-x",

language = "English",

volume = "46",

pages = "753–821",

journal = "Surveys in Geophysics",

issn = "0169-3298",

publisher = "Springer Netherlands",

}

Köhn, C , Neubert, T, Füllekrug, M, Ebert, U, Nijdam, S, Chanrion, O, Østgaard, N, Marisaldi, M, Soula, S, Montanyà, J, Gordillo-Vázquez, F, Luque, A, Teunissen, J, Holbøll, J, Bennett, A, Smith, P, Lorenzo, V, Christian, HJ, Madsen, SF, Mihailova, D, Boissin, JF, Pedeboy, S, Chaumat, L, Heumesser, M, Dimitriadou, K, Maiorana, C, Ghilain, S, Gomez Kuri, Z, Peverell, A, Urbani, M, Kieu, TN, Martinez, A, Francisco, H, Niknezhad, M, Teixeira-Gomes, MB, Pizzuti, A, Arcanjo, M, Mirpour, S, Bai, X & Reglero, V 2025, 'Recent Results on Science and Innovation Related to Electrical Processes of Thunderstorms', Surveys in Geophysics, vol. 46, pp. 753–821. https://doi.org/10.1007/s10712-025-09891-x

TY - JOUR

T1 - Recent Results on Science and Innovation Related to Electrical Processes of Thunderstorms

AU - Köhn, Christoph

AU - Neubert, Torsten

AU - Füllekrug, Martin

AU - Ebert, Ute

AU - Nijdam, Sander

AU - Chanrion, Olivier

AU - Østgaard, Nikolai

AU - Marisaldi, Martino

AU - Soula, Serge

AU - Montanyà, Joan

AU - Gordillo-Vázquez, Francisco

AU - Luque, Alejandro

AU - Teunissen, Jannis

AU - Holbøll, Joachim

AU - Bennett, Alec

AU - Smith, Paul

AU - Lorenzo, Victor

AU - Christian, Hugh J.

AU - Madsen, Søren F.

AU - Mihailova, Diana

AU - Boissin, Jean François

AU - Pedeboy, Stéphane

AU - Chaumat, Laure

AU - Heumesser, Matthias

AU - Dimitriadou, Krystallia

AU - Maiorana, Carolina

AU - Ghilain, Simon

AU - Gomez Kuri, Zaida

AU - Peverell, Adam

AU - Urbani, Michele

AU - Kieu, Thi Ny

AU - Martinez, Andy

AU - Francisco, Hani

AU - Niknezhad, Mojtaba

AU - Teixeira-Gomes, Miguel B.

AU - Pizzuti, Andrea

AU - Arcanjo, Marcelo

AU - Mirpour, Shahriar

AU - Bai, Xue

AU - Reglero, Victor

PY - 2025

Y1 - 2025

N2 - Lightning is a highly energetic electric discharge process in our atmosphere, evolving in several complex stages. Lightning is recognized as an essential climate variable, as it affects the concentration of greenhouse gases. It also threatens electrical and electronic devices, in particular, on elevated structures like wind turbines, and it endangers aircraft built with modern composite materials with inherently low electric conductivity. During the past decades, our fundamental understanding of atmospheric electricity has continued to evolve. For example, during the past 30 years, discharge processes were discovered in the atmosphere above thunderstorms, the so-called transient luminous events (TLEs) in the stratosphere and mesosphere, and terrestrial gamma-ray flashes (TGFs), accompanied with beams of photons, electrons and positrons, were observed from low orbiting satellites passing over thunderstorms. Lightning-like discharges also appear in plasma and high-voltage technology. The SAINT network was formed to bring the different research fields together. SAINT was the “Science And INnovation of Thunderstorms” Marie Skłodowska-Curie Innovative Training Network of the European Union Horizon 2020 program. From 2017 to 2021, 15 PhD students observed lightning processes from satellites and ground, developed models and conducted laboratory experiments. The project bridged between geophysical research, plasma technology and relevant industries. The paper presents a summary of the findings of the SAINT network collaboration.

AB - Lightning is a highly energetic electric discharge process in our atmosphere, evolving in several complex stages. Lightning is recognized as an essential climate variable, as it affects the concentration of greenhouse gases. It also threatens electrical and electronic devices, in particular, on elevated structures like wind turbines, and it endangers aircraft built with modern composite materials with inherently low electric conductivity. During the past decades, our fundamental understanding of atmospheric electricity has continued to evolve. For example, during the past 30 years, discharge processes were discovered in the atmosphere above thunderstorms, the so-called transient luminous events (TLEs) in the stratosphere and mesosphere, and terrestrial gamma-ray flashes (TGFs), accompanied with beams of photons, electrons and positrons, were observed from low orbiting satellites passing over thunderstorms. Lightning-like discharges also appear in plasma and high-voltage technology. The SAINT network was formed to bring the different research fields together. SAINT was the “Science And INnovation of Thunderstorms” Marie Skłodowska-Curie Innovative Training Network of the European Union Horizon 2020 program. From 2017 to 2021, 15 PhD students observed lightning processes from satellites and ground, developed models and conducted laboratory experiments. The project bridged between geophysical research, plasma technology and relevant industries. The paper presents a summary of the findings of the SAINT network collaboration.

KW - SAINT

KW - Lightning

KW - Streamers

KW - Leaders

KW - Teerestrial gamma-ray flashes

KW - Transient luminous events

KW - Laboratory experiments

U2 - 10.1007/s10712-025-09891-x

DO - 10.1007/s10712-025-09891-x

M3 - Journal article

SN - 0169-3298

VL - 46

SP - 753

EP - 821

JO - Surveys in Geophysics

JF - Surveys in Geophysics

ER -

Recent Results on Science and Innovation Related to Electrical Processes of Thunderstorms

Abstract

Keywords

UN SDGs

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