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References

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  1. R. V. Pole and R. A. Myers, IEEE J. Quant. Elect. QE-2182 (1966).
    [Crossref]
  2. R. T. Denton and T. S. Kinsel, Proc. IEEE 56140 (1968).
    [Crossref]
  3. T. S. Kinsel and R. T. Denton, Proc. IEEE 56146 (1968).
    [Crossref]
  4. M. DiDomenico, J. E. Geusic, H. M. Marcos, and R. G. Smith, Appl. Phys. Letters 8, 180 (1966).
    [Crossref]
  5. M. Born and E. Wolf, Principles of Optics (Pergamon Press, Inc., New York, 1959), p. 413.
  6. J. E. Geusic, H. J. Levinstein, J. J. Rubin, S. Singh, and L. G. Van Uitert, Appl. Phys. Letters 11, 269 (1967).
    [Crossref]

1968 (2)

R. T. Denton and T. S. Kinsel, Proc. IEEE 56140 (1968).
[Crossref]

T. S. Kinsel and R. T. Denton, Proc. IEEE 56146 (1968).
[Crossref]

1967 (1)

J. E. Geusic, H. J. Levinstein, J. J. Rubin, S. Singh, and L. G. Van Uitert, Appl. Phys. Letters 11, 269 (1967).
[Crossref]

1966 (2)

R. V. Pole and R. A. Myers, IEEE J. Quant. Elect. QE-2182 (1966).
[Crossref]

M. DiDomenico, J. E. Geusic, H. M. Marcos, and R. G. Smith, Appl. Phys. Letters 8, 180 (1966).
[Crossref]

Born, M.

M. Born and E. Wolf, Principles of Optics (Pergamon Press, Inc., New York, 1959), p. 413.

Denton, R. T.

R. T. Denton and T. S. Kinsel, Proc. IEEE 56140 (1968).
[Crossref]

T. S. Kinsel and R. T. Denton, Proc. IEEE 56146 (1968).
[Crossref]

DiDomenico, M.

M. DiDomenico, J. E. Geusic, H. M. Marcos, and R. G. Smith, Appl. Phys. Letters 8, 180 (1966).
[Crossref]

Geusic, J. E.

J. E. Geusic, H. J. Levinstein, J. J. Rubin, S. Singh, and L. G. Van Uitert, Appl. Phys. Letters 11, 269 (1967).
[Crossref]

M. DiDomenico, J. E. Geusic, H. M. Marcos, and R. G. Smith, Appl. Phys. Letters 8, 180 (1966).
[Crossref]

Kinsel, T. S.

R. T. Denton and T. S. Kinsel, Proc. IEEE 56140 (1968).
[Crossref]

T. S. Kinsel and R. T. Denton, Proc. IEEE 56146 (1968).
[Crossref]

Levinstein, H. J.

J. E. Geusic, H. J. Levinstein, J. J. Rubin, S. Singh, and L. G. Van Uitert, Appl. Phys. Letters 11, 269 (1967).
[Crossref]

Marcos, H. M.

M. DiDomenico, J. E. Geusic, H. M. Marcos, and R. G. Smith, Appl. Phys. Letters 8, 180 (1966).
[Crossref]

Myers, R. A.

R. V. Pole and R. A. Myers, IEEE J. Quant. Elect. QE-2182 (1966).
[Crossref]

Pole, R. V.

R. V. Pole and R. A. Myers, IEEE J. Quant. Elect. QE-2182 (1966).
[Crossref]

Rubin, J. J.

J. E. Geusic, H. J. Levinstein, J. J. Rubin, S. Singh, and L. G. Van Uitert, Appl. Phys. Letters 11, 269 (1967).
[Crossref]

Singh, S.

J. E. Geusic, H. J. Levinstein, J. J. Rubin, S. Singh, and L. G. Van Uitert, Appl. Phys. Letters 11, 269 (1967).
[Crossref]

Smith, R. G.

M. DiDomenico, J. E. Geusic, H. M. Marcos, and R. G. Smith, Appl. Phys. Letters 8, 180 (1966).
[Crossref]

Van Uitert, L. G.

J. E. Geusic, H. J. Levinstein, J. J. Rubin, S. Singh, and L. G. Van Uitert, Appl. Phys. Letters 11, 269 (1967).
[Crossref]

Wolf, E.

M. Born and E. Wolf, Principles of Optics (Pergamon Press, Inc., New York, 1959), p. 413.

Appl. Phys. Letters (2)

M. DiDomenico, J. E. Geusic, H. M. Marcos, and R. G. Smith, Appl. Phys. Letters 8, 180 (1966).
[Crossref]

J. E. Geusic, H. J. Levinstein, J. J. Rubin, S. Singh, and L. G. Van Uitert, Appl. Phys. Letters 11, 269 (1967).
[Crossref]

IEEE J. Quant. Elect. (1)

R. V. Pole and R. A. Myers, IEEE J. Quant. Elect. QE-2182 (1966).
[Crossref]

Proc. IEEE (2)

R. T. Denton and T. S. Kinsel, Proc. IEEE 56140 (1968).
[Crossref]

T. S. Kinsel and R. T. Denton, Proc. IEEE 56146 (1968).
[Crossref]

Other (1)

M. Born and E. Wolf, Principles of Optics (Pergamon Press, Inc., New York, 1959), p. 413.

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Figures (2)

Fig. 1
Fig. 1

Circular-scan light deflector. M1,2 = flat mirrors, Dy = electrooptic prism deflector for y-axis deflection; Dx = x-axis deflector; V = voltage source of frequency c/f, where c is the velocity of light and f is the focal ength of the lens; π/2 represents a phase shift of 90°.

Fig. 2
Fig. 2

Schematic of electro-optic prisms in the circular-scan deflector. The voltage applied to the x deflector differs in phase by 90° from the y-deflector voltage. Inset is a side view of the deflector, showing the relation between laser-spot size, deflector aperture and length, and total angular deflection.

Equations (8)

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θ 1 = - 2 l Δ n / d ,
N = π 2 θ tot R / λ ,
R = f λ / π R o .
d = l θ tot + 2 R ,
N = π 2 R l n V / ( l n θ 1 + 2 R ) 2 V h ,
R opt = 3 4 ( λ V n l 2 / 2 V h ) 1 2
d opt = ( 8 / 3 ) R opt
N opt = 3 π 2 8 ( l λ ) 1 2 ( n V 2 V h ) 3 4 .