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References

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  1. D. F. Nelson, F. K. Reinhart, Appl. Phys. Lett. 5, 148 (1964).
    [CrossRef]
  2. F. K. Reinhart, J. Appl. Phys. 39, 3426 (1968).
    [CrossRef]
  3. F. K. Reinhart, D. F. Nelson, J. McKenna, Phys. Rev. 177, 1208 (1969).
    [CrossRef]
  4. D. Hall, A. Yariv, E. Garmire, Appl. Phys. Lett. 17, 127, (1970).
    [CrossRef]
  5. J. H. Harris, R. Shubert, IEEE Trans. Microwave Theory Tech. MTT-19, 269 (1971).
    [CrossRef]
  6. J. H. Harris, D. P. Gia Russo, R. Shubert, Proc. IEEE Lett. 59, 1123 (1971).
    [CrossRef]
  7. M. Born, E. Wolf, Principles of Optics (Pergamon, New York, 1970), p. 609.
  8. W. R. Kelin, B. D. Cook, W. G. Mayer, Acustica 15, 67 (1965).

1971 (2)

J. H. Harris, R. Shubert, IEEE Trans. Microwave Theory Tech. MTT-19, 269 (1971).
[CrossRef]

J. H. Harris, D. P. Gia Russo, R. Shubert, Proc. IEEE Lett. 59, 1123 (1971).
[CrossRef]

1970 (1)

D. Hall, A. Yariv, E. Garmire, Appl. Phys. Lett. 17, 127, (1970).
[CrossRef]

1969 (1)

F. K. Reinhart, D. F. Nelson, J. McKenna, Phys. Rev. 177, 1208 (1969).
[CrossRef]

1968 (1)

F. K. Reinhart, J. Appl. Phys. 39, 3426 (1968).
[CrossRef]

1965 (1)

W. R. Kelin, B. D. Cook, W. G. Mayer, Acustica 15, 67 (1965).

1964 (1)

D. F. Nelson, F. K. Reinhart, Appl. Phys. Lett. 5, 148 (1964).
[CrossRef]

Born, M.

M. Born, E. Wolf, Principles of Optics (Pergamon, New York, 1970), p. 609.

Cook, B. D.

W. R. Kelin, B. D. Cook, W. G. Mayer, Acustica 15, 67 (1965).

Garmire, E.

D. Hall, A. Yariv, E. Garmire, Appl. Phys. Lett. 17, 127, (1970).
[CrossRef]

Gia Russo, D. P.

J. H. Harris, D. P. Gia Russo, R. Shubert, Proc. IEEE Lett. 59, 1123 (1971).
[CrossRef]

Hall, D.

D. Hall, A. Yariv, E. Garmire, Appl. Phys. Lett. 17, 127, (1970).
[CrossRef]

Harris, J. H.

J. H. Harris, R. Shubert, IEEE Trans. Microwave Theory Tech. MTT-19, 269 (1971).
[CrossRef]

J. H. Harris, D. P. Gia Russo, R. Shubert, Proc. IEEE Lett. 59, 1123 (1971).
[CrossRef]

Kelin, W. R.

W. R. Kelin, B. D. Cook, W. G. Mayer, Acustica 15, 67 (1965).

Mayer, W. G.

W. R. Kelin, B. D. Cook, W. G. Mayer, Acustica 15, 67 (1965).

McKenna, J.

F. K. Reinhart, D. F. Nelson, J. McKenna, Phys. Rev. 177, 1208 (1969).
[CrossRef]

Nelson, D. F.

F. K. Reinhart, D. F. Nelson, J. McKenna, Phys. Rev. 177, 1208 (1969).
[CrossRef]

D. F. Nelson, F. K. Reinhart, Appl. Phys. Lett. 5, 148 (1964).
[CrossRef]

Reinhart, F. K.

F. K. Reinhart, D. F. Nelson, J. McKenna, Phys. Rev. 177, 1208 (1969).
[CrossRef]

F. K. Reinhart, J. Appl. Phys. 39, 3426 (1968).
[CrossRef]

D. F. Nelson, F. K. Reinhart, Appl. Phys. Lett. 5, 148 (1964).
[CrossRef]

Shubert, R.

J. H. Harris, R. Shubert, IEEE Trans. Microwave Theory Tech. MTT-19, 269 (1971).
[CrossRef]

J. H. Harris, D. P. Gia Russo, R. Shubert, Proc. IEEE Lett. 59, 1123 (1971).
[CrossRef]

Wolf, E.

M. Born, E. Wolf, Principles of Optics (Pergamon, New York, 1970), p. 609.

Yariv, A.

D. Hall, A. Yariv, E. Garmire, Appl. Phys. Lett. 17, 127, (1970).
[CrossRef]

Acustica (1)

W. R. Kelin, B. D. Cook, W. G. Mayer, Acustica 15, 67 (1965).

Appl. Phys. Lett. (2)

D. F. Nelson, F. K. Reinhart, Appl. Phys. Lett. 5, 148 (1964).
[CrossRef]

D. Hall, A. Yariv, E. Garmire, Appl. Phys. Lett. 17, 127, (1970).
[CrossRef]

IEEE Trans. Microwave Theory Tech. (1)

J. H. Harris, R. Shubert, IEEE Trans. Microwave Theory Tech. MTT-19, 269 (1971).
[CrossRef]

J. Appl. Phys. (1)

F. K. Reinhart, J. Appl. Phys. 39, 3426 (1968).
[CrossRef]

Phys. Rev. (1)

F. K. Reinhart, D. F. Nelson, J. McKenna, Phys. Rev. 177, 1208 (1969).
[CrossRef]

Proc. IEEE Lett. (1)

J. H. Harris, D. P. Gia Russo, R. Shubert, Proc. IEEE Lett. 59, 1123 (1971).
[CrossRef]

Other (1)

M. Born, E. Wolf, Principles of Optics (Pergamon, New York, 1970), p. 609.

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Figures (2)

Fig. 1
Fig. 1

Structure used to excite and modulate guided optical waves in nitrobenzene.

Fig. 2
Fig. 2

Photograph of the structure depicted in Fig. 1 showing light guided in the nitrobenzene film. The view is through the substrate containing the grating structure.

Equations (4)

Equations on this page are rendered with MathJax. Learn more.

I = cos 2 [ ( k Δ n 0 L / 2 ) - ( k Δ n max L / 2 ) cos 2 ω t ] .
I 2 ω I Δ n max = 0 = 2 | sin [ k Δ n 0 L - ( k Δ n max L / 2 ) ] 1 + cos k Δ n 0 L J 1 ( k Δ n max L 2 ) | ,
Δ n max = 2 K λ E N 2 ,
E N = V / [ ( N / q ) d q + d N ] ,

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