期刊
PHYSICAL REVIEW B
卷 103, 期 7, 页码 -出版社
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevB.103.075403
关键词
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资金
- Russian Science Foundation [19-72-00178]
- Ministry of Education and Science of the Russian Federation [FZWG-2020-0032 (2019-1569)]
- Russian Science Foundation [19-72-00178] Funding Source: Russian Science Foundation
This study establishes the first-principles theory for the scattering of a fast electron in an array of nano- or microparticles, revealing complex diffraction patterns generated by Smith-Purcell radiation at THz frequencies. The derived generalized Smith-Purcell dispersion relation provides insights into the relationship between frequency, structure periods, electron velocity, and radiation angle. The unique spatial distribution of generated light could potentially be used for structured-light electron-driven photon sources.
We construct the first-principles theory for the scattering of the Coulomb field of a fast electron traveling along an array of nano- or microparticles. The electron's trajectory is arbitrarily oriented in the plane parallel to the surface. We show that Smith-Purcell radiation accompanying this process results in very rich diffraction patterns, which differ dramatically from the ones for conventional diffraction gratings; a numerical analysis was made for THz frequencies. The generalized Smith-Purcell dispersion relation has been derived; it describes the link between frequency, two periods of the structure, the electron's velocity, and the angle of radiation with maximal intensity. The unique spatial distribution of the generated light can form the basis for the generation of structured-light electron-driven photon sources.
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