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Diffraction properties of transmission binary blazed grating

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Języki publikacji
EN
Abstrakty
EN
The properties of binary blazed grating were theoretically analyzed with finite-difference time-domain (FDTD) method. The diffraction efficiencies and diffraction angles of -1, 0, and +1 order for the grating varying with wavelength, grating structure, and the etch depth were studied when the incident angle was 30°. The numerical simulations revealed that the binary blazed grating presented high stability of diffraction efficiencies with wavelength shift.
Czasopismo
Rocznik
Strony
105--109
Opis fizyczny
Bibliogr. 13 poz.,
Twórcy
autor
autor
  • Department of Physics, Wuhan 430072, P.R. China
Bibliografia
  • [1] HAIDNER H., KIPFER P., SHERIDAN J.T., SCHWIDER J., STREIBL N., COLLISCHON M., HUTFLESS J., MARZ M., Diffraction grating with rectangular grooves exceeding 80% diffraction efficiency, Infrared Physics 34(5), 1993, pp. 467–75.
  • [2] WARREN M.E., SMITH R.E., VAWTER G.A., WENDT J.R., High-efficiency subwavelength diffractive optical element in GaAs for 975 nm, Optics Letters 20(12), 1995, pp. 1441–3.
  • [3] ASTILEAN S., LALANNE PH., CHAVEL P., CAMBRIL E., LAUNOIS H., High efficiency subwavelength diffractive element patterned in a high-refractive-index material for 633 nm operation, Optics Letters 23(7), 1998, pp. 552–4.
  • [4] MILLER J.M., DE BEAUCOUDREY N., CHAVEL P., CAMBRIL E., LAUNOIS H., Synthesis of subwavelength--pulse width spatially modulated array illuminator for 0.633 m, Optics Letters 21(17), 1996, pp. 1399–401.
  • [5] LALANNE PH., ASTILEAN S., CHAVEL P., CAMBRIL E., LAUNOIS H., Blazed binary subwavelength gratings with efficiencies larger than those of conventional echelette gratings, Optics Letters 23(14), 1998, pp. 1081–3.
  • [6] LALANNE PH., ASTILEAN S., CHAVEL P., CAMBRIL E., LAUNOIS H., Design and fabrication of blazed binary diffractive elements with sampling periods smaller than the structural cutoff, Journal of the Optical Society of America A: Optics, Image Science and Vision 16(5), 1999, pp. 1143–56.
  • [7] LEE M.S.L., LALANNE PH., RODIER J.-C., CAMBRIL E., Wide-field-angle behavior of blazed-binary gratings in the resonance domain, Optics Letters 25(23), 2000, pp. 1690–2.
  • [8] CHEN F.T., CRAIGHEAD H.G., Diffractive phase elements on two-dimensional artificial dielectrics, Optics Letters 20(2), 1995, pp. 121–3.
  • [9] CHEN F.T., CRAIGHEAD H.G., Diffractive lens fabricated with mostly zeroth-order gratings, Optics Letters 21(3), 1996, pp. 177–9.
  • [10] KIPFER P., COLLISCHON M., HAIDNER H., SCHWIDER J., Subwavelength structures and their use in diffractive optics, Optical Engineering 35(3), 1996, pp. 726–31.
  • [11] LALANNE PH., Waveguiding in blazed-binary diffractive elements, Journal of the Optical Society of America A: Optics, Image Science and Vision 16(10), 1999, pp. 2517–20.
  • [12] LEE M.L.S., LALANNE PH., RODIER J.C., CHAVEL P., CAMBRIL E., CHEN Y., Imaging with blazed-binary diffractive elements, Journal of Optics A: Pure and Applied Optics 4(5), 2002, pp. S119–24.
  • [13] YEE K., Numerical solution of initial boundary value problems involving Maxwell’s equations in isotropic media, IEEE Transactions on Antennas and Propagation AP-14(3), 1966, pp. 302–7.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPW4-0008-0011
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