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Manifestation of dynamic effects in coherent X-radiation from relativistic electron in Bragg scattering geometry

Abstract

Analytic expressions describing the spectral-angular distribution of parametric X-radiation (PXR) and diffracted transient radiation (DTR) of a relativistic electron traversing a single-crystal plate in the Bragg scattering geometry are derived on the basis of the two-wave approximation of the dynamic diffraction theory. The expressions are obtained in the general case of asymmetric reflection of a particle’s field relative to the surface of the crystal plate. It is shown that in the given geometry, a significant increase of the PXR angular density is possible due to the dynamic effect of PXR spectral broadening. The conditions for an increase in the DTR spectrum width, which causes a considerable increase of the DTR angular density, are derived. The possibility of the most pronounced manifestation of the Bormann dynamic effect in PXR is demonstrated for a thick absorptive crystal.

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Correspondence to A. V. Noskov.

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Original Russian Text © S.V. Blazhevich, A.V. Noskov, 2010, published in Zhurnal Tekhnicheskoĭ Fiziki, 2010, Vol. 80, No. 3, pp. 1–8.

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Blazhevich, S.V., Noskov, A.V. Manifestation of dynamic effects in coherent X-radiation from relativistic electron in Bragg scattering geometry. Tech. Phys. 55, 317–325 (2010). https://doi.org/10.1134/S1063784210030011

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Keywords

  • Relativistic Electron
  • Atomic Plane
  • Crystal Plate
  • Angular Density
  • Single Crystal Plate