Inverse polarizing effect of subwavelength metallic gratings in deep ultraviolet band

Guo G. Kang; Ismo Vartiainen; Ben F. Bai; Hemmo Tuovinen; Jari Turunen

doi:10.1063/1.3624534

Inverse polarizing effect of subwavelength metallic gratings in deep ultraviolet band

Guo G. Kang^*, Ismo Vartiainen, Ben F. Bai, Hemmo Tuovinen, Jari Turunen

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

25 Citations (Scopus)

Abstract

Using subwavelength structures to manipulate the polarization of deep ultraviolet light is generally known as difficult with the current nano-fabrication technologies. An aluminum grating with period close to the incident wavelength is designed and experimentally evidenced to exhibit a pronounced inverse polarizing effect in the deep ultraviolet band. By using the Fourier modal method and planar waveguide theory, we show that the main contributor to the inverse polarizing effect is the excitation of surface plasmons on the front surface of the grating.

Original language	English
Article number	071103
Journal	Applied Physics Letters
Volume	99
Issue number	7
DOIs	https://doi.org/10.1063/1.3624534
Publication status	Published - 15 Aug 2011
Externally published	Yes

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abstract = "Using subwavelength structures to manipulate the polarization of deep ultraviolet light is generally known as difficult with the current nano-fabrication technologies. An aluminum grating with period close to the incident wavelength is designed and experimentally evidenced to exhibit a pronounced inverse polarizing effect in the deep ultraviolet band. By using the Fourier modal method and planar waveguide theory, we show that the main contributor to the inverse polarizing effect is the excitation of surface plasmons on the front surface of the grating.",

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AU - Bai, Ben F.

AU - Tuovinen, Hemmo

AU - Turunen, Jari

PY - 2011/8/15

Y1 - 2011/8/15

N2 - Using subwavelength structures to manipulate the polarization of deep ultraviolet light is generally known as difficult with the current nano-fabrication technologies. An aluminum grating with period close to the incident wavelength is designed and experimentally evidenced to exhibit a pronounced inverse polarizing effect in the deep ultraviolet band. By using the Fourier modal method and planar waveguide theory, we show that the main contributor to the inverse polarizing effect is the excitation of surface plasmons on the front surface of the grating.

AB - Using subwavelength structures to manipulate the polarization of deep ultraviolet light is generally known as difficult with the current nano-fabrication technologies. An aluminum grating with period close to the incident wavelength is designed and experimentally evidenced to exhibit a pronounced inverse polarizing effect in the deep ultraviolet band. By using the Fourier modal method and planar waveguide theory, we show that the main contributor to the inverse polarizing effect is the excitation of surface plasmons on the front surface of the grating.

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Inverse polarizing effect of subwavelength metallic gratings in deep ultraviolet band

Abstract

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