Lamellar gratings as polarization components for specularly reflected beams

Charles W. Haggans; Lifeng Li; Teruo Fujita; Raymond K. Kostuk

doi:10.1080/09500349314550721

Lamellar gratings as polarization components for specularly reflected beams

Charles W. Haggans, Lifeng Li, Teruo Fujita, Raymond K. Kostuk

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

36 Scopus citations

Abstract

High spatial frequency lamellar gratings are shown to function as phase compensators, quarter-wave and half-wave retarders, and polarization rotators that operate on specularly reflected (zeroth-order) beams. These gratings are designed using rigorous coupled-wave and modal grating diffraction theories. Controlling the geometrical parameters of these gratings allows for engineering the phase retardation and polarization conversion introduced to a reflected beam. Fabrication and operational tolerances for these elements are discussed. Wavelength and polar angle of incidence variation affect the performance of these elements more strongly than variations in other geometrical and operational parameters.

Original language	English (US)
Pages (from-to)	675-686
Number of pages	12
Journal	Journal of Modern Optics
Volume	40
Issue number	4
DOIs	https://doi.org/10.1080/09500349314550721
State	Published - Apr 1993

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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10.1080/09500349314550721

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title = "Lamellar gratings as polarization components for specularly reflected beams",

abstract = "High spatial frequency lamellar gratings are shown to function as phase compensators, quarter-wave and half-wave retarders, and polarization rotators that operate on specularly reflected (zeroth-order) beams. These gratings are designed using rigorous coupled-wave and modal grating diffraction theories. Controlling the geometrical parameters of these gratings allows for engineering the phase retardation and polarization conversion introduced to a reflected beam. Fabrication and operational tolerances for these elements are discussed. Wavelength and polar angle of incidence variation affect the performance of these elements more strongly than variations in other geometrical and operational parameters.",

author = "Haggans, {Charles W.} and Lifeng Li and Teruo Fujita and Kostuk, {Raymond K.}",

note = "Funding Information: Acknowledgments The authors wish to acknowledge support for this work from an Itek Graduate Research Fellowship and the Optical Data Storage Center of the University of Arizona.",

year = "1993",

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T1 - Lamellar gratings as polarization components for specularly reflected beams

AU - Haggans, Charles W.

AU - Li, Lifeng

AU - Fujita, Teruo

AU - Kostuk, Raymond K.

N1 - Funding Information: Acknowledgments The authors wish to acknowledge support for this work from an Itek Graduate Research Fellowship and the Optical Data Storage Center of the University of Arizona.

PY - 1993/4

Y1 - 1993/4

N2 - High spatial frequency lamellar gratings are shown to function as phase compensators, quarter-wave and half-wave retarders, and polarization rotators that operate on specularly reflected (zeroth-order) beams. These gratings are designed using rigorous coupled-wave and modal grating diffraction theories. Controlling the geometrical parameters of these gratings allows for engineering the phase retardation and polarization conversion introduced to a reflected beam. Fabrication and operational tolerances for these elements are discussed. Wavelength and polar angle of incidence variation affect the performance of these elements more strongly than variations in other geometrical and operational parameters.

AB - High spatial frequency lamellar gratings are shown to function as phase compensators, quarter-wave and half-wave retarders, and polarization rotators that operate on specularly reflected (zeroth-order) beams. These gratings are designed using rigorous coupled-wave and modal grating diffraction theories. Controlling the geometrical parameters of these gratings allows for engineering the phase retardation and polarization conversion introduced to a reflected beam. Fabrication and operational tolerances for these elements are discussed. Wavelength and polar angle of incidence variation affect the performance of these elements more strongly than variations in other geometrical and operational parameters.

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Lamellar gratings as polarization components for specularly reflected beams

Abstract

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