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Imaging atomic scattering potential in centroidal diffraction of elastic electrons

The Fraunhofer diffraction of quantum particles from materials with sharp electron-density edges or symmetric bond structures is ubiquitous. In contrast, diffraction from atoms with characteristic asymptotically-diffused electron distribution is far less intuitive, although known for many years. The current study unravels an unusual diffraction mechanism of elastic electrons from diffused atomic diffractors. Consequently, the fringe pattern converted to the Fourier reciprocal space maps out the effective scattering potential, which is not accessible in direct measurements. This may benefit benchmarking theory models, advances in atom-holography, plasma and astrophysical diagnostics, and accessing time-resolved potential landscapes. The study employs relativistic partial wave analysis with atoms modeled in the Dirac-Fock formalism and performs e-Cd measurements in absolute scale. Analysis for Mg, Ba, and Ra targets demonstrates the universality of the mechanism.

preprint2025arXivOpen access
R. AiswaryaJobin JoseNenad SimonovićBratislav P. MarinkovićHimadri S. Chakraborty
physics.atom-ph
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R. AiswaryaJobin JoseNenad SimonovićBratislav P. MarinkovićHimadri S. Chakraborty

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