Abstract

We investigate the first example of self-consistent impact ionization fronts propagating at relativistic speeds and involving interacting, high-energy electrons. These fronts, which we name relativistic runaway ionization fronts, show remarkable features such as a bulk speed within less than one percent of the speed of light and the stochastic selection of high-energy electrons for further acceleration, which leads to a power-law distribution of particle energies. A simplified model explains this selection in terms of the overrun of Coulomb-scattered electrons. Appearing as the electromagnetic interaction between electrons saturates the exponential growth of a relativistic runaway electron avalanche, relativistic runaway ionization fronts may occur in conjunction with terrestrial gamma-ray flashes and thus explain recent observations of long, power-law tails in the terrestrial gamma-ray flash energy spectrum.

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Particle-in-cell simulation for frequency up-conversion of microwave to terahertz radiation by a relativistic hollow ionization front
Kun Chen ... Chao Chang
AIP Advances | VOL. 9
Kun Chen, et. al.Kun Chen ... Chao Chang
01 Nov 2019
Comment on “‘Seed’ electrons from muon decay for runaway mechanism in the terrestrial gamma ray flash production,” by Gerson S. Paiva, Antonio C. Pavão, and Cristiano C. Bastos
J R Dwyer ... D M Smith
Journal of Geophysical Research: Atmospheres | VOL. 115
J R Dwyer, et. al.J R Dwyer ... D M Smith
22 May 2010
Generation of THz radiation from a periodic electrostatic field via a relativistic ionization front
F Suzuki ... W Jiang
-
F Suzuki, et. al.F Suzuki ... W Jiang
01 Oct 2011
Ground‐level observation of a terrestrial gamma ray flash initiated by a triggered lightning
B M Hare ... J A Caicedo
Journal of Geophysical Research: Atmospheres | VOL. 121
B M Hare, et. al.B M Hare ... J A Caicedo
14 Jun 2016
View more papers

More From: Physical Review Letters

Paper Title
Journal
Date
Author
Discharge Flow of a Cohesive Granular Media from a Silo
Adrien Gans ... Pascale Aussillous
Physical Review Letters | VOL. 133
Adrien Gans, et. al.Adrien Gans ... Pascale Aussillous
06 Dec 2024
Erratum: Inertial Migration in a Pressure-Driven Channel Flow: Beyond the Segre-Silberberg Pinch [Phys. Rev. Lett. 132 , 054002 (2024)
Prateek Anand ... Ganesh Subramanian
Physical Review Letters | VOL. 133
Prateek Anand, et. al.Prateek Anand ... Ganesh Subramanian
06 Dec 2024
Discrete Synaptic Events Induce Global Oscillations in Balanced Neural Networks
Denis S Goldobin ... Alessandro Torcini
Physical Review Letters | VOL. 133
Denis S Goldobin, et. al.Denis S Goldobin ... Alessandro Torcini
06 Dec 2024
Two-Loop Quarkonium Hamiltonian in Nonannihilation Channel
Go Mishima ... Hiromasa Takaura
Physical Review Letters | VOL. 133
Go Mishima, et. al.Go Mishima ... Hiromasa Takaura
06 Dec 2024
View more papers

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.