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References

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  1. M. C. Hutley, G. P. Verrill, R. C. McPhedran, “Effect of Dielectric Layer on Anomalies of Gratings,” Opt. Commun. 11, 207 (1974).
    [CrossRef]
  2. D. Maystre, J.-P. Laude, P. Gacoin, D. Lepere, J. P. Priou, “Gratings for Tunable Lasers: Using Multidielectric Coatings to Improve Their Efficiency,” Appl. Opt. 19, 3099 (1980).
    [CrossRef] [PubMed]
  3. L. Mashev, E. Popov: “Diffraction Efficiency Anomalies of Multicoated Dielectric Gratings,” Opt. Commun. 51, 131 (1984).
    [CrossRef]

1984 (1)

L. Mashev, E. Popov: “Diffraction Efficiency Anomalies of Multicoated Dielectric Gratings,” Opt. Commun. 51, 131 (1984).
[CrossRef]

1980 (1)

1974 (1)

M. C. Hutley, G. P. Verrill, R. C. McPhedran, “Effect of Dielectric Layer on Anomalies of Gratings,” Opt. Commun. 11, 207 (1974).
[CrossRef]

Gacoin, P.

Hutley, M. C.

M. C. Hutley, G. P. Verrill, R. C. McPhedran, “Effect of Dielectric Layer on Anomalies of Gratings,” Opt. Commun. 11, 207 (1974).
[CrossRef]

Laude, J.-P.

Lepere, D.

Mashev, L.

L. Mashev, E. Popov: “Diffraction Efficiency Anomalies of Multicoated Dielectric Gratings,” Opt. Commun. 51, 131 (1984).
[CrossRef]

Maystre, D.

McPhedran, R. C.

M. C. Hutley, G. P. Verrill, R. C. McPhedran, “Effect of Dielectric Layer on Anomalies of Gratings,” Opt. Commun. 11, 207 (1974).
[CrossRef]

Popov, E.

L. Mashev, E. Popov: “Diffraction Efficiency Anomalies of Multicoated Dielectric Gratings,” Opt. Commun. 51, 131 (1984).
[CrossRef]

Priou, J. P.

Verrill, G. P.

M. C. Hutley, G. P. Verrill, R. C. McPhedran, “Effect of Dielectric Layer on Anomalies of Gratings,” Opt. Commun. 11, 207 (1974).
[CrossRef]

Appl. Opt. (1)

Opt. Commun. (2)

L. Mashev, E. Popov: “Diffraction Efficiency Anomalies of Multicoated Dielectric Gratings,” Opt. Commun. 51, 131 (1984).
[CrossRef]

M. C. Hutley, G. P. Verrill, R. C. McPhedran, “Effect of Dielectric Layer on Anomalies of Gratings,” Opt. Commun. 11, 207 (1974).
[CrossRef]

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Figures (3)

Fig. 1
Fig. 1

First-order projected diffraction image of 1200-grooves/mm multicoated dielectric grating illuminated by a divergent laser beam near normal incidence.

Fig. 2
Fig. 2

First-order efficiency as a function of the angle of incidence for a five-layer grating with 1200 grooves/mm and S polarization. Solid curve, holographic grating with h/d = 0.18; dashed curve, holographic grating with h/d = 0.35; dotted curve, ruled grating with h/d = 0.19.

Fig. 3
Fig. 3

Same as Fig. 2 except for P polarization.

Equations (1)

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( β / k ) n = sin θ i ± m λ / d ,

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