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Efficient micromirror confinement of sub-teraelectronvolt cosmic rays in galaxy clusters

Patrick Reichherzer, A. F. A. Bott, Robert J. Ewart, G. Gregori, Philipp Kempski, Matthew W. Kunz, A. A. Schekochihin

2025Nature Astronomy15 citationsDOIOpen Access PDF

Abstract

Abstract Cosmic rays (CRs) play a pivotal role in shaping the thermal and dynamical properties of astrophysical environments, such as galaxies and galaxy clusters. Recent observations suggest a stronger confinement of CRs in certain astrophysical systems than predicted by current CR-transport theories. Here, we show that the incorporation of microscale physics into CR-transport models can account for this enhanced CR confinement. We develop a theoretical description of the effect of magnetic microscale fluctuations originating from the mirror instability on macroscopic CR diffusion. We confirm our theory with large-dynamical-range simulations of CR transport in the intracluster medium (ICM) of galaxy clusters and kinetic simulations of CR transport in micromirror fields. We conclude that sub-teraelectronvolt CR confinement in the ICM is far more effective than previously anticipated on the basis of Galactic-transport extrapolations. The transformative impact of micromirrors on CR diffusion provides insights into how microphysics can reciprocally affect macroscopic dynamics and observable structures across a range of astrophysical scales.

Topics & Concepts

GalaxyPhysicsAstrophysicsCOSMIC cancer databaseAstronomyCosmic rayGalaxy clusterAstrophysics and Cosmic PhenomenaDark Matter and Cosmic PhenomenaGamma-ray bursts and supernovae
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