An all-optical light grating generates tunable ultrafast electron vortices via stimulated Compton scattering for OAM transfer.
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A weak nonlinear magnetic entrance edge triggers Dzhanibekov instability in the pseudospin dynamics of twisted electrons, producing recurrent conversions between Laguerre-Gaussian vortex and Hermite-Gaussian beam profiles.
The transverse envelope of accelerating twisted Dirac states in nonuniform axial B and E fields obeys a Caldirola-Kanai Schrödinger equation whose solution is obtained by Ermakov mapping to a scaling function b(z) satisfying a generalized Pinney equation.
Diffraction by triangular apertures encodes both magnitude and sign of orbital angular momentum in twisted electron and ion beams, while circular apertures depend only on magnitude.
citing papers explorer
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Ultrafast electron vortex produced by a grating made of light
An all-optical light grating generates tunable ultrafast electron vortices via stimulated Compton scattering for OAM transfer.
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Tennis-racket instability of twisted electrons
A weak nonlinear magnetic entrance edge triggers Dzhanibekov instability in the pseudospin dynamics of twisted electrons, producing recurrent conversions between Laguerre-Gaussian vortex and Hermite-Gaussian beam profiles.
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Effective Caldirola-Kanai Model for Accelerating Twisted Dirac States in Nonuniform Axial Fields
The transverse envelope of accelerating twisted Dirac states in nonuniform axial B and E fields obeys a Caldirola-Kanai Schrödinger equation whose solution is obtained by Ermakov mapping to a scaling function b(z) satisfying a generalized Pinney equation.
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Diffraction by Circular and Triangular Apertures as a Diagnostic Tool of Twisted Matter Waves
Diffraction by triangular apertures encodes both magnitude and sign of orbital angular momentum in twisted electron and ion beams, while circular apertures depend only on magnitude.