From Weibel seeds to dynamo beyond pair-plasmas
Journal article, 2026

Bridging the spatiotemporal scales of magnetic seed field generation and subsequent dynamo amplification in the weakly collisional intracluster medium presents an extreme numerical challenge. We perform collisionless turbulence simulations with initially unmagnetised electrons that capture both magnetic seed generation via the electron Weibel instability and the ensuing dynamo amplification. Going beyond existing pair-plasma studies, we use an ion-to-electron mass ratio of $100$ for which we find electron and ion dynamics are sufficiently decoupled. These simulations are enabled by the 10-moment collisionless fluid solver of Gkeyll, which evolves the full pressure tensor for all species. The electron heat-flux closure regulates pressure isotropisation and effectively sets the magnetic Reynolds number. We investigate how the strength of the closure influences the transition between a regime reminiscent of previous kinetic pair-plasma simulations and a regime exhibiting dynamo behaviour qualitatively similar to magnetohydrodynamics.

plasma dynamics

plasma simulation

astrophysical plasmas

Author

Lise Hanebring

Subatomic, High Energy and Plasma Physics 1

James Juno

Princeton University

Ammar Hakim

Princeton University

Jason TenBarge

Princeton University

Istvan Pusztai

Chalmers, Physics, Subatomic, High Energy and Plasma Physics

Journal of Plasma Physics

0022-3778 (ISSN) 1469-7807 (eISSN)

Vol. 92 3 E79

Data-driven optimal models for kinetic dynamos

Swedish Research Council (VR) (2021-03943), 2022-01-01 -- 2025-12-31.

Subject Categories (SSIF 2025)

Fusion, Plasma and Space Physics

DOI

10.1017/S0022377826101780

More information

Latest update

6/23/2026