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References

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  1. P. Waterworth, G. Chilton, Optoelectron, 4, 339 (1972).
  2. J. T. Cutchen, J. O. Harris, G. R. Laguna, Appl. Opt. 14, 1866 (1975).
    [CrossRef] [PubMed]
  3. G. H. Haertling, C. E. Land, J. Am. Ceram. Soc. 54, 1 (1971).
    [CrossRef]
  4. G. Wofram, 3rd Symposium on Applications of Ferroelectricity, Albuquerque, N.M., (1975). To be published in Ferroelectrics10 (1976).

1975

1972

P. Waterworth, G. Chilton, Optoelectron, 4, 339 (1972).

1971

G. H. Haertling, C. E. Land, J. Am. Ceram. Soc. 54, 1 (1971).
[CrossRef]

Chilton, G.

P. Waterworth, G. Chilton, Optoelectron, 4, 339 (1972).

Cutchen, J. T.

Haertling, G. H.

G. H. Haertling, C. E. Land, J. Am. Ceram. Soc. 54, 1 (1971).
[CrossRef]

Harris, J. O.

Laguna, G. R.

Land, C. E.

G. H. Haertling, C. E. Land, J. Am. Ceram. Soc. 54, 1 (1971).
[CrossRef]

Waterworth, P.

P. Waterworth, G. Chilton, Optoelectron, 4, 339 (1972).

Wofram, G.

G. Wofram, 3rd Symposium on Applications of Ferroelectricity, Albuquerque, N.M., (1975). To be published in Ferroelectrics10 (1976).

Appl. Opt.

J. Am. Ceram. Soc.

G. H. Haertling, C. E. Land, J. Am. Ceram. Soc. 54, 1 (1971).
[CrossRef]

Optoelectron

P. Waterworth, G. Chilton, Optoelectron, 4, 339 (1972).

Other

G. Wofram, 3rd Symposium on Applications of Ferroelectricity, Albuquerque, N.M., (1975). To be published in Ferroelectrics10 (1976).

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Figures (4)

Fig. 1
Fig. 1

Optical switching pulse in PLZT 9.2/65/35 recorded from oscilloscope. Horizontal scale 100 nsec/division.

Fig. 2
Fig. 2

Optical switching pulse in PLZT 9.2/65/35: solid line, calculated from theory; points, experimental data from Fig. 1.

Fig. 3
Fig. 3

Optical pulse response times in PLZT ceramic materials: solid lines, leading edges; broken lines, trailing edges.

Fig. 4
Fig. 4

Influence of pulse width and repetition frequency on half-wave switching voltage in PLZT 9.2/65/35. Results normalized to steady-state value.

Equations (5)

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leading edge : P ( t ) = K 1 E ( t ) · [ 1 - exp ( - t / τ ) ] trailing edge : P ( t ) = K 1 E ( t ) · [ exp ( - t / τ ) ] ,
Δ n ( t ) = - n 3 g P 2 ( t ) 2 ,
Γ = Δ n ( t ) · d λ ,
leading edge : T ( t ) = sin 2 { π / 2 [ 1 - exp ( - t / τ ) ] 2 } , trailing edge : T ( t ) = sin 2 { π / 2 [ exp ( - t / τ ) ] 2 } .
V λ / 2 ( t ) = V λ / 2 ( ) [ 1 - exp ( - t / τ ) ] - 1 ,

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