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References

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  1. J. E. Davis, Infrared Phys. 20, 287 (1980).
    [CrossRef]
  2. V. P. Tomaselli, D. C. Edewaard, P. Gillan, K. D. Moller, Appl. Opt. 20, 1361 (1981).
    [CrossRef] [PubMed]
  3. S. T. Chase, R. D. Joseph, Appl. Opt. 22, 1775 (1983).
    [CrossRef] [PubMed]
  4. R. C. Compton, R. C. McPhedran, G. H. Derrick, L. C. Botten, Infrared Phys., to appear xx, 000 (198x).
  5. R. C. McPhedran, G. H. Derrick, L. C. Botten, in Electromagnetic Theory of Gratings (Springer, Berlin, 1980).
  6. F. L. Lin, IEEE Trans. Microwave Theory Tech. MTT-25, 756 (1977).

1983

1981

1980

J. E. Davis, Infrared Phys. 20, 287 (1980).
[CrossRef]

1977

F. L. Lin, IEEE Trans. Microwave Theory Tech. MTT-25, 756 (1977).

Botten, L. C.

R. C. Compton, R. C. McPhedran, G. H. Derrick, L. C. Botten, Infrared Phys., to appear xx, 000 (198x).

R. C. McPhedran, G. H. Derrick, L. C. Botten, in Electromagnetic Theory of Gratings (Springer, Berlin, 1980).

Chase, S. T.

Compton, R. C.

R. C. Compton, R. C. McPhedran, G. H. Derrick, L. C. Botten, Infrared Phys., to appear xx, 000 (198x).

Davis, J. E.

J. E. Davis, Infrared Phys. 20, 287 (1980).
[CrossRef]

Derrick, G. H.

R. C. Compton, R. C. McPhedran, G. H. Derrick, L. C. Botten, Infrared Phys., to appear xx, 000 (198x).

R. C. McPhedran, G. H. Derrick, L. C. Botten, in Electromagnetic Theory of Gratings (Springer, Berlin, 1980).

Edewaard, D. C.

Gillan, P.

Joseph, R. D.

Lin, F. L.

F. L. Lin, IEEE Trans. Microwave Theory Tech. MTT-25, 756 (1977).

McPhedran, R. C.

R. C. McPhedran, G. H. Derrick, L. C. Botten, in Electromagnetic Theory of Gratings (Springer, Berlin, 1980).

R. C. Compton, R. C. McPhedran, G. H. Derrick, L. C. Botten, Infrared Phys., to appear xx, 000 (198x).

Moller, K. D.

Tomaselli, V. P.

Appl. Opt.

IEEE Trans. Microwave Theory Tech.

F. L. Lin, IEEE Trans. Microwave Theory Tech. MTT-25, 756 (1977).

Infrared Phys.

J. E. Davis, Infrared Phys. 20, 287 (1980).
[CrossRef]

Other

R. C. Compton, R. C. McPhedran, G. H. Derrick, L. C. Botten, Infrared Phys., to appear xx, 000 (198x).

R. C. McPhedran, G. H. Derrick, L. C. Botten, in Electromagnetic Theory of Gratings (Springer, Berlin, 1980).

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Figures (4)

Fig. 1
Fig. 1

Geometrical parameters (a,b,g) for a mesh with cross-shaped apertures.

Fig. 2
Fig. 2

Normal-incidence transmittance as a function of wavelength for a bandpass mesh.The experimental curve (- - -) is taken from Ref. 3, while the theoretical points ● have been calculated using a/g = 0.10, b/g = 0.077, h/g = 0.0073, and g = 410 μm.

Fig. 3
Fig. 3

Normal-incidence transmittance as a function of wavelength for a bandpass mesh.The experimental curve is taken from Ref. 3, while the theoretical points ● have been calculated using a/g = 0.22, b/g = 0.09, h/g = 0.005, and g = 375 μm.

Fig. 4
Fig. 4

Normal-incidence transmittance calculated as a function of wavelength for meshes with a/g = 0.075, b/g = 0.14, and g = 410 μm. Points ● correspond to h/g = 0.016, while points +- correspond to h/g = 0.0016.

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