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    Journals >Acta Photonica Sinica >Volume 32 >Issue 10 >Page 1259 > Article
    • Acta Photonica Sinica
    • Vol. 32, Issue 10, 1259 (2003)
    Body-of-revolution Finite-difference Time-domain Method for the Analysis of Axially Symmetric Subwavelength Diffractive Optical Elements
    [in Chinese], [in Chinese], [in Chinese], [in Chinese], and [in Chinese]
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    DOI: Cite this Article
    [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese]. Body-of-revolution Finite-difference Time-domain Method for the Analysis of Axially Symmetric Subwavelength Diffractive Optical Elements[J]. Acta Photonica Sinica, 2003, 32(10): 1259 Copy Citation Text show less
    References

    [2] Lichtenberg B,Gallagher N C. Numerical modeling of diffractive devices using the finite element method.Opt Eng, 1994,33(11):3518~3526

    [3] Dennis W, Prather,et al. Boundary integral methods applied to the analysis of diffractive optical elements.JOSA A, 1997,14(1): 34~43

    [4] Taflove A. Computational Electromagnetics: The Finite Difference Time Domain Method. Boston. London: Artech House, 1995. 397~428

    [5] Prather D W,Shi Shouyuan.Fomulation and application of the FDTD method for the analysis of axially symmetric diffractive optical elements.JOSA A, 1999,16(5): 1131~1143

    [6] Berenger J P. A perfectly matched layer for the absorption of electromagnetic waves.Journal of Computatinal Physics,1994,114(2):185~200

    [7] Shi Shouyuan,Prather D W. Vector-based plane-wave spectrum method for the propagation of cylindrical electromagnetic fields.Optics Letters, 1999,24(21): 1445~1447

    [8] Prather D W,Mait J N,Misotznik M S,et al.Vector-based synthesis of finite aperiodic subwavelength diffractive optical elements.JOSA A, 1998,15(6): 1599~1607

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    [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese]. Body-of-revolution Finite-difference Time-domain Method for the Analysis of Axially Symmetric Subwavelength Diffractive Optical Elements[J]. Acta Photonica Sinica, 2003, 32(10): 1259
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