Saturation of the compression of two interacting magnetized plasma toroids evidenced in the laboratory

A. Sladkov, C. Fegan, W. Yao, A. F. A. Bott, S. N. Chen, H. Ahmed, E. D. Filippov, R. Lelièvre, P. Martin, A. McIlvenny, T. Waltenspiel, P. Antici, M. Borghesi*, S. Pikuz, A. Ciardi, E. d'Humières, A. Soloviev, M. Starodubtsev, J. Fuchs*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

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Abstract

Interactions between magnetic fields advected by matter play a fundamental role in the Universe at a diverse range of scales. A crucial role these interactions play is in making turbulent fields highly anisotropic, leading to observed ordered fields. These in turn, are important evolutionary factors for all the systems within and around. Despite scant evidence, due to the difficulty in measuring even near-Earth events, the magnetic field compression factor in these interactions, measured at very varied scales, is limited to a few. However, compressing matter in which a magnetic field is embedded, results in compression up to several thousands. Here we show, using laboratory experiments and matching three-dimensional hybrid simulations, that there is indeed a very effective saturation of the compression when two independent parallel-oriented magnetic fields regions encounter one another due to plasma advection. We found that the observed saturation is linked to a build-up of the magnetic pressure, which decelerates and redirects the inflows at their encounter point, thereby stopping further compression. Moreover, the growth of an electric field, induced by the incoming flows and the magnetic field, acts in redirecting the inflows transversely, further hampering field compression.

Original languageEnglish
Article number10065
Number of pages10
JournalNature Communications
Volume15
DOIs
Publication statusPublished - 20 Nov 2024

Keywords

  • plasma toroids
  • interacting magnetized plasma toroids
  • turbulent fields
  • anisotropic

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