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Orbital angular momentum mode selection by rotationally symmetric superposition of chiral states with application to electron vortex beams

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arxiv 1701.03973 v1 pith:QTMIQMBS submitted 2017-01-14 quant-ph physics.optics

Orbital angular momentum mode selection by rotationally symmetric superposition of chiral states with application to electron vortex beams

classification quant-ph physics.optics
keywords rotationallysymmetricbeamschiralvortexangularelectrongeneral
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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A general orbital angular momentum (OAM) mode selection principle is put forward involving the rotationally symmetric superposition of chiral states. This principle is not only capable of explaining the operation of spiral zone plate holograms and suggesting that naturally occurring rotationally symmetric patterns could be inadvertent sources of vortex beams, but more importantly, it enables the systematic and flexible generation of structured OAM waves in general. This is demonstrated both experimentally and theoretically in the context of electron vortex beams using rotationally symmetric binary amplitude chiral sieve masks.

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