CERN Accelerating science

Article
Report number arXiv:2312.05244
Title Laboratory realization of relativistic pair-plasma beams
Author(s) Arrowsmith, C.D. (Oxford U.) ; Simon, P. (CERN ; Darmstadt, GSI) ; Bilbao, P.J. (Lisbon, IST) ; Bott, A.F. A. (Oxford U.) ; Burger, S. (CERN) ; Chen, H. (LLNL, Livermore) ; Cruz, F.D. (Lisbon, IST) ; Davenne, T. (Rutherford) ; Efthymiopoulos, I. (CERN) ; Froula, D.H. (Rochester U.) ; Goillot, A.M. (CERN) ; Gudmundsson, J.T. (Iceland U. ; Royal Inst. Tech., Stockholm) ; Haberberger, D. (Rochester U.) ; Halliday, J.W. D. (Oxford U.) ; Hodge, T. (Oxford U. ; Reading U.) ; Huffman, B.T. (Oxford U.) ; Iaquinta, S. (Oxford U.) ; Miniati, F. (Oxford U.) ; Reville, B. (Heidelberg, Max Planck Inst.) ; Sarkar, S. (Oxford U.) ; Schekochihin, A.A. (Oxford U.) ; Silva, L.O. (Lisbon, IST) ; Simpson, R. (LLNL, Livermore) ; Stergiou, V. (Oxford U. ; CERN ; Natl. Tech. U., Athens) ; Trines, R.M. G.M. (Rutherford) ; Vieu, T. (Heidelberg, Max Planck Inst.) ; Charitonidis, N. (CERN) ; Bingham, R. (Rutherford ; Strathclyde U.) ; Gregori, G. (Oxford U.)
Publication 2024-06-12
Imprint 2023-12-08
Number of pages 14
Note 14 pages, 8 figures
In: Nature Commun. 15 (2024) 5029
DOI 10.1038/s41467-024-49346-2 (publication)
Subject category hep-ex ; Particle Physics - Experiment ; astro-ph.HE ; Astrophysics and Astronomy ; physics.plasm-ph ; Other Fields of Physics
Abstract Relativistic electron-positron plasmas are ubiquitous in extreme astrophysical environments such as black holes and neutron star magnetospheres, where accretion-powered jets and pulsar winds are expected to be enriched with such pair plasmas. Their behaviour is quite different from typical electron-ion plasmas due to the matter-antimatter symmetry of the charged components and their role in the dynamics of such compact objects is believed to be fundamental. So far, our experimental inability to produce large yields of positrons in quasi-neutral beams has restricted the understanding of electron-positron pair plasmas to simple numerical and analytical studies which are rather limited. We present first experimental results confirming the generation of high-density, quasi-neutral, relativistic electron-positron pair beams using the 440 GeV/c beam at CERN's Super Proton Synchrotron (SPS) accelerator. The produced pair beams have a volume that fills multiple Debye spheres and are thus able to sustain collective plasma oscillations. Our work opens up the possibility of directly probing the microphysics of pair plasmas beyond quasi-linear evolution into regimes that are challenging to simulate or measure via astronomical observations.
Copyright/License publication: © 2024 The Author(s) (License: CC-BY-4.0)
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 Запись создана 2024-06-12, последняя модификация 2024-12-16


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