Normal modes and mode transformation of pure electron vortex beams

Normal modes and mode transformation of pure electron vortex beams

Electron vortex beams constitute the first class of matter vortex beams which are currently routinely produced in the laboratory. Here, we briefly review the progress of this nascent field and put forward a natural quantum basis set which we show is suitable for the description of electron vortex be...

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Bibliographic Details
Published in:Philosophical transactions of the Royal Society of London. Series A: Mathematical, physical, and engineering sciences Vol. 375; no. 2087; p. 20150438
Main Authors: Thirunavukkarasu, G., Mousley, M., Babiker, M., Yuan, J.
Format: Journal Article
Language:English
Published: England The Royal Society Publishing 28-02-2017
Subjects:
Angular momentum
Eigenstates
Eigenvectors
Electron beams
Electron Vortex
Electrons
Focal plane
Fourier transforms
Gaussian beams (optics)
Holograms
Holography
Normal Modes
Vortices
electron vortex
eigenstates
normal modes
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Summary:Electron vortex beams constitute the first class of matter vortex beams which are currently routinely produced in the laboratory. Here, we briefly review the progress of this nascent field and put forward a natural quantum basis set which we show is suitable for the description of electron vortex beams. The normal modes are truncated Bessel beams (TBBs) defined in the aperture plane or the Fourier transform of the transverse structure of the TBBs (FT-TBBs) in the focal plane of a lens with the said aperture. As these modes are eigenfunctions of the axial orbital angular momentum operator, they can provide a complete description of the two-dimensional transverse distribution of the wave function of any electron vortex beam in such a system, in analogy with the prominent role Laguerre-Gaussian (LG) beams played in the description of optical vortex beams. The characteristics of the normal modes of TBBs and FT-TBBs are described, including the quantized orbital angular momentum (in terms of the winding number l) and the radial index p>0. We present the experimental realization of such beams using computer-generated holograms. The mode analysis can be carried out using astigmatic transformation optics, demonstrating close analogy with the astigmatic mode transformation between LG and Hermite-Gaussian beams. This article is part of the themed issue ‘Optical orbital angular momentum’.
Bibliography:Theme issue “Optical orbital angular momentum” compiled and edited by Stephen M. Barnett, Mohamed Babiker and Miles J. Padgett
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One contribution of 14 to a theme issue ‘Optical orbital angular momentum’.
ISSN:1364-503X
1471-2962
DOI:10.1098/rsta.2015.0438