1996
DOI: 10.1016/0030-4018(95)00432-7
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Interboard optical data distribution by Bessel beam shadowing

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Cited by 103 publications
(49 citation statements)
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“…This is the principle by which axicon lenses produce the rings of a Bessel-type beam (Herman and Wiggins, 1991). The conical propagation leads to another interesting property of the Bessel beam, namely that the original spatial distribution is reconstructed after propagation past an obstruction (MacDonald et al, 1996;McGloin and Dholakia, 2005), as has been demonstrated for electron vortex Bessel beams (Grillo et al, 2014b).…”
Section: Bessel Beamsmentioning
confidence: 84%
“…This is the principle by which axicon lenses produce the rings of a Bessel-type beam (Herman and Wiggins, 1991). The conical propagation leads to another interesting property of the Bessel beam, namely that the original spatial distribution is reconstructed after propagation past an obstruction (MacDonald et al, 1996;McGloin and Dholakia, 2005), as has been demonstrated for electron vortex Bessel beams (Grillo et al, 2014b).…”
Section: Bessel Beamsmentioning
confidence: 84%
“…Because the beam profile was not measured it cannot be excluded that trapping was achieved in local maxima of a speckle-like pattern. The numerical studies on the propagation of (higher order) Bessel beams that have been carried out so far dealt with an isolated absorbing object [Bouchal et al, 1998, Bouchal, 2002, MacDonald et al, 1996 with a size comparable to that of the beam's main lobe. In most cases no direct and quantitative comparison between Bessel beams and conventional beams, as e.g.…”
Section: Discussionmentioning
confidence: 99%
“…Они рас-пространяются без дифракции на конечном расстоянии в свободном пространстве [1], формируют световые трубки или световые полости (бутыли) на оптической оси [3,4], обладают свойством самовосстановления после искажения малым препятствием [5,6].…”
Section: Introductionunclassified