2020
DOI: 10.1007/s10910-020-01182-7
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Calculation of lattice sums of general type

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Cited by 3 publications
(2 citation statements)
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“…To alleviate these problems, D. Beutel et al [69] used spherical coordinates and a T matrix representation to develop a numerical method to calculate the complete response of a metasurface, that is, propagating and evanescent modes, for any particle and up to a desired multipolar order. Based on previous efforts on isotropic particles, [70,71] this approach employs the Ewald summation [72,73] for the fast-converging determination of the lattice couplings to achieve a complete description of a 2D array response. Although efficient, this work lacks the interchangeability between spherical and more popular-Cartesian representations.…”
Section: Introductionmentioning
confidence: 99%
“…To alleviate these problems, D. Beutel et al [69] used spherical coordinates and a T matrix representation to develop a numerical method to calculate the complete response of a metasurface, that is, propagating and evanescent modes, for any particle and up to a desired multipolar order. Based on previous efforts on isotropic particles, [70,71] this approach employs the Ewald summation [72,73] for the fast-converging determination of the lattice couplings to achieve a complete description of a 2D array response. Although efficient, this work lacks the interchangeability between spherical and more popular-Cartesian representations.…”
Section: Introductionmentioning
confidence: 99%
“…To alleviate these problems, D. Beutel et al [64] used spherical coordinates and a T matrix representation to develop a numerical method to calculate the complete response of a metasurface, i.e., propagating and evanescent modes, for any particle and up to a desired multipolar order. Based on previous efforts on isotropic par- ticles [65,66], this approach employs the Ewald summation [67,68] for the fast-converging determination of the lattice couplings to achieve a full description of a 2D array response. Although efficient, this work lacks the interchangeability between spherical and -more popular-Cartesian representations.…”
Section: Introductionmentioning
confidence: 99%