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"Shadowing" of the electromagnetic field of relativistic charged particles

In radiation processes such as a transition radiation, diffraction radiation, etc. based on relativistic electrons passing through or near an opaque screen, the electron self-field is partly shadowed after the screen over a distance of the order of the formation length $γ^2λ$. This effect has been investigated on coherent diffraction radiation (DR) by electron bunches. Absorbing and conductive half-plane screens were placed at various distances L before a standard DR source (inclined half-plane mirror). The radiation intensity was reduced when the screen was at small L and on the same side as the mirror. No reduction was observed when the screen was on the opposite side. It is worth noting that absorbing and conductive half-plane screens produce the same shadowing effect. The shadowing effect is responsible for a bound on the intensity of Smith-Purcell radiation.

preprint2009arXivOpen access
G. NaumenkoX. ArtruA. PotylistsynYu. PopovL. SukhikhM. Shevelev
physics.acc-ph
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G. NaumenkoX. ArtruA. PotylistsynYu. PopovL. SukhikhM. Shevelev

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