S. N. Khonina, “Generation the longitudinal component of electric field on the optical axis using asymmetric binary axicons illuminated by linearly and circularly polarized beams”, Comp. nanotechnol., 2014, no. 1, 43

Computational nanotechnology

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Computational nanotechnology, 2014, Issue 1, Pages 43–46 (Mi cn8)

QUANTUM NANOTECHNOLOGY

Generation the longitudinal component of electric field on the optical axis using asymmetric binary axicons illuminated by linearly and circularly polarized beams

S. N. Khonina

S. P. Korolyov Samara State Aerospace University

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Abstract: It is analytically and numerically shown that by introducing the asymmetry into the axicon design it becomes possible to generate the longitudinal electric field (E-field) component on the optical axis for linearly and circularly polarized incident beams. Binary axicons with high numerical aperture (NA) in three configurations (axis-symmetric, spiral and bi-axicon) are investigated. Experimental measurements for the near-field diffraction of linearly and circularly polarized incident beams are presented.

Keywords: asymmetric binary axicon, near-field diffraction, longitudinal electrical field component.

Document Type: Article

Language: English

Citation: S. N. Khonina, “Generation the longitudinal component of electric field on the optical axis using asymmetric binary axicons illuminated by linearly and circularly polarized beams”, Comp. nanotechnol., 2014, no. 1, 43–46

Citation in format AMSBIB

\Bibitem{Kho14}

\by S.~N.~Khonina

\paper Generation the longitudinal component of electric field on the optical axis using asymmetric binary axicons illuminated by linearly and circularly polarized beams

\jour Comp. nanotechnol.

\yr 2014

\issue 1

\pages 43--46

\mathnet{http://mi.mathnet.ru/cn8}

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https://www.mathnet.ru/eng/cn8

https://www.mathnet.ru/eng/cn/y2014/i1/p43

Translation

Generation the longitudinal component of electric field on the optical axis using asymmetric binary axicons illuminated by linearly and circularly polarized beams
S. N. Khonina
Comp. nanotechnol., 2014:1, 47–51

Citing articles in Google Scholar: Russian citations, English citations
Related articles in Google Scholar: Russian articles, English articles

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Abstract page:	120
Full-text PDF :	69
References:	18

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