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  1. link.aps.org

    Photon bursts with a wavelength smaller than the plasma interparticle distance can drive plasma wakes via Compton scattering. We investigate this fundamental process analytically and numerically for different photon frequencies, photon flux, and plasma magnetization. Our results show that Langmuir and extraordinary modes are driven efficiently when the photon energy density lies above a ...
    Author:F. Del Gaudio, R. A. Fonseca, R. A. Fonseca, L. O. Silva, T. GrismayerPublished:2020
  2. ui.adsabs.harvard.edu

    Photon bursts with a wavelength smaller than the plasma inter-particle distance can drive plasma wakes via Compton scattering. Such wakes are likely to be formed in astrophysical environments where abundant energetic photons are produced. We present here a complete one dimensional theory of this fundamental process, which is compared with the results of PIC simulations enriched with a Compton ...
    Author:Thomas Grismayer, Fabrizio Del Gaudio, Ricardo Fonseca, Luís Miguel Oliveira e SilvaPublished:2020
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  4. repositorio.iscte-iul.pt

    tool the formation of plasma wakefield structures driven by a broadband burst of gamma rays. In this Letter, we investigate theoretically and numerically the fundamental process of collective plasma wakes excitation by photon drivers. The interaction of the injected photons with the plasma is solely due to Compton photon-electron scatter-ing.
  5. merical tool the formation of plasma wake eld structures driven by a broadband burst of gamma rays. In this Let-ter, we investigate theoretically and numerically the fun-damental process of collective plasma wakes excitation by photon drivers. The interaction of the injected pho-tons with the plasma is solely due to Compton photon-electron ...
  6. numerical tool the formation of plasma wake eld struc-tures driven by a broadband burst of gamma rays. In this Letter, we investigate theoretically and numerically the fundamental process of collective plasma wakes ex-citation by photon drivers. The interaction of the in-jected photons with the plasma is solely due to Compton photon-electron ...
  7. inspirehep.net

    Our results show that Langmuir and extraordinary modes are driven efficiently when the photon energy density lies above a certain threshold. The interaction of photon bursts with magnetized plasmas is of distinguished interest as the generated extraordinary modes can convert into pure electromagnetic waves at the plasma-vacuum boundary.
  8. semanticscholar.org

    This work shows that Langmuir and extraordinary modes are driven efficiently when the photon energy density lies above a certain threshold, which could possibly be a mechanism for the generation of radio waves in astrophysical scenarios in the presence of intense sources of high energy photons. Photon bursts with a wavelength smaller than the plasma interparticle distance can drive plasma ...
  9. absimage.aps.org

    distance can drive plasma wakes via Compton scattering [1]. Such wakes are likely to be formed in astrophysical environments where abundant energetic photons are produced. We present here a complete one dimensional theory of this fundamen-tal process, which is compared with the results of PIC simulations enriched with a Compton module [2].
  10. physics.paperswithcode.com

    Photon bursts with a wavelength smaller than the plasma inter-particle distance can drive plasma wakes via Compton scattering. We investigate this fundamental process analytically and numerically for different photon frequencies, photon flux, and plasma magnetization. Our results show that Langmuir and extraordinary modes are driven efficiently when the photon energy density lies above a ...
  11. Photon bursts with a wavelength smaller than the plasma inter-particle distance can drive plasma wakes via Compton scattering. We investigate this fundamental process analytically and numerically for different photon frequencies, photon flux, and plasma magnetization. Our results show that Langmuir and extraordinary modes are driven efficiently when the photon energy density lies above a ...

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