Influence of vortex transmission phase function on intensity distribution in the focal area of high-aperture focusing system-Reference-Cited by-同舟云学术

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Influence of vortex transmission phase function on intensity distribution in the focal area of high-aperture focusing system

Published:2011-03 Issue:1 Volume:20 Page:23-42
ISSN:1060-992X
Container-title:Optical Memory and Neural Networks
language:en
Short-container-title:Opt. Mem. Neural Networks

Author:

Khonina S. N.,Kazanskiy N. L.,Volotovsky S. G.

Publisher

Allerton Press

Subject

Electrical and Electronic Engineering,General Computer Science,Electronic, Optical and Magnetic Materials

Link

http://link.springer.com/content/pdf/10.3103/S1060992X11010024.pdf

Reference53 articles.

1. Karman, G.P., Beijersbergen, M.W., van Duijl, A., Bouwmeester, D., and Woerdman, J.P., Airy Pattern Reorganization and Subwavelength Structure in a Focus, J. Opt. Soc. Am., Ser. A, 1998, vol. 15, no. 4, pp. 884–899.

2. Quabis, S., Dorn, R., Eberler, M., Glockl, O., and Leuchs, G., Focusing Light to a Tighter Spot, Opt. Commun., 2000, vol. 179, pp. 1–7.

3. Kant, R., Superresolution and Increased Depth of Focus: An Inverse Problem of Vector Diffraction, J. Mod. Opt., 2000, vol. 47, no. 5, pp. 905–916.

4. Dorn, R., Quabis, S., and Leuchs, G., Sharper Focus for a Radially Polarized Light Beam, Phys. Rev. Lett., 2003, vol. 91, p. 233901.

5. Davidson, N. and Bokor, N., High-Numerical-Aperture Focusing of Radially Polarized Doughnut Beams with a Parabolic Mirror and a Flat Diffractive Lens, Opt. Lett., 2004, vol. 29, no. 12, pp. 1318–1320.

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