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  1. E. H. Eberhardt, Inst. Radio Engrs. Trans. NS-11, 48 (1964).
  2. F. J. Lombard, F. Martin, Rev. Sci. Instr. 32, 200 (1961).
    [CrossRef]
  3. M. E. Austin, G. F. Dalrymple, A. A. Galvin, B. S. Goldstein, R. M. Weigand, J. D. Welch, “GaAs Laser Radar Components and Techniques” (MIT Lincoln Laboratory Report No. 407, 29October1965), Chap. V, Para. B.1.
  4. W. A. Baum, in Astronomical Techniques, W. A. Hiltner, Ed. (University of Chicago Press, Chicago, 1962), Chap. 1.

1964 (1)

E. H. Eberhardt, Inst. Radio Engrs. Trans. NS-11, 48 (1964).

1961 (1)

F. J. Lombard, F. Martin, Rev. Sci. Instr. 32, 200 (1961).
[CrossRef]

Austin, M. E.

M. E. Austin, G. F. Dalrymple, A. A. Galvin, B. S. Goldstein, R. M. Weigand, J. D. Welch, “GaAs Laser Radar Components and Techniques” (MIT Lincoln Laboratory Report No. 407, 29October1965), Chap. V, Para. B.1.

Baum, W. A.

W. A. Baum, in Astronomical Techniques, W. A. Hiltner, Ed. (University of Chicago Press, Chicago, 1962), Chap. 1.

Dalrymple, G. F.

M. E. Austin, G. F. Dalrymple, A. A. Galvin, B. S. Goldstein, R. M. Weigand, J. D. Welch, “GaAs Laser Radar Components and Techniques” (MIT Lincoln Laboratory Report No. 407, 29October1965), Chap. V, Para. B.1.

Eberhardt, E. H.

E. H. Eberhardt, Inst. Radio Engrs. Trans. NS-11, 48 (1964).

Galvin, A. A.

M. E. Austin, G. F. Dalrymple, A. A. Galvin, B. S. Goldstein, R. M. Weigand, J. D. Welch, “GaAs Laser Radar Components and Techniques” (MIT Lincoln Laboratory Report No. 407, 29October1965), Chap. V, Para. B.1.

Goldstein, B. S.

M. E. Austin, G. F. Dalrymple, A. A. Galvin, B. S. Goldstein, R. M. Weigand, J. D. Welch, “GaAs Laser Radar Components and Techniques” (MIT Lincoln Laboratory Report No. 407, 29October1965), Chap. V, Para. B.1.

Lombard, F. J.

F. J. Lombard, F. Martin, Rev. Sci. Instr. 32, 200 (1961).
[CrossRef]

Martin, F.

F. J. Lombard, F. Martin, Rev. Sci. Instr. 32, 200 (1961).
[CrossRef]

Weigand, R. M.

M. E. Austin, G. F. Dalrymple, A. A. Galvin, B. S. Goldstein, R. M. Weigand, J. D. Welch, “GaAs Laser Radar Components and Techniques” (MIT Lincoln Laboratory Report No. 407, 29October1965), Chap. V, Para. B.1.

Welch, J. D.

M. E. Austin, G. F. Dalrymple, A. A. Galvin, B. S. Goldstein, R. M. Weigand, J. D. Welch, “GaAs Laser Radar Components and Techniques” (MIT Lincoln Laboratory Report No. 407, 29October1965), Chap. V, Para. B.1.

Inst. Radio Engrs. Trans. (1)

E. H. Eberhardt, Inst. Radio Engrs. Trans. NS-11, 48 (1964).

Rev. Sci. Instr. (1)

F. J. Lombard, F. Martin, Rev. Sci. Instr. 32, 200 (1961).
[CrossRef]

Other (2)

M. E. Austin, G. F. Dalrymple, A. A. Galvin, B. S. Goldstein, R. M. Weigand, J. D. Welch, “GaAs Laser Radar Components and Techniques” (MIT Lincoln Laboratory Report No. 407, 29October1965), Chap. V, Para. B.1.

W. A. Baum, in Astronomical Techniques, W. A. Hiltner, Ed. (University of Chicago Press, Chicago, 1962), Chap. 1.

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Figures (2)

Fig. 1
Fig. 1

Detection of single quantum events with a multiplier phototube. Tube type: FW129, effective photocathode diameter: 0.35 mm, photocathode type: S11, operating voltage: 1800 V, total sweep time: 5 × 10−2 sec, flux source: incandescent lamp, flux level: (undetermined), preamplifier gain: 50 ×. (a) Dark sample No. 1. (b) Dark sample No. 2. (c) Signal sample No. 1. (d) Signal sample No. 2.

Fig. 2
Fig. 2

Differential output pulse height spectrum. Tube type: FW129, effective photocathode diameter: 0.35 mm, photocathode type: S11, operating voltage: 1800 V, flux source: incandescent lamp, preamplifier gain: 50×, analyzer gain: 0.040, flux level: (undetermined), sampling time: approximately 1 min.

Equations (1)

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F min Q c Δ t 1 + [ ( N B + N D ) Δ t ] ½ .

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