Abstract

Experimental details are given of a novel, promising kind of double frequency laser—with power output of 0.8–1.4 mW, large frequency difference from 37 MHz to a longitudinal mode interval, and frequency stability of 10−5, and its potential uses are discussed.

© 1990 Optical Society of America

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References

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  1. R. W. Wlezien et al., “Characterization of Rotating Flexible Disks Using a Laser Doppler Vibrometer,” Opt. Eng. 23, 436–442 (1984).
    [CrossRef]
  2. Polytec Company product.
  3. S. Yang, S. Zhang, “The Frequency Split Phenomena of HeNe Laser with a Rotation Quartz Plate in Its Cavity,” Opt. Commun. 68, 55–57 (1988).
    [CrossRef]

1988 (1)

S. Yang, S. Zhang, “The Frequency Split Phenomena of HeNe Laser with a Rotation Quartz Plate in Its Cavity,” Opt. Commun. 68, 55–57 (1988).
[CrossRef]

1984 (1)

R. W. Wlezien et al., “Characterization of Rotating Flexible Disks Using a Laser Doppler Vibrometer,” Opt. Eng. 23, 436–442 (1984).
[CrossRef]

Wlezien, R. W.

R. W. Wlezien et al., “Characterization of Rotating Flexible Disks Using a Laser Doppler Vibrometer,” Opt. Eng. 23, 436–442 (1984).
[CrossRef]

Yang, S.

S. Yang, S. Zhang, “The Frequency Split Phenomena of HeNe Laser with a Rotation Quartz Plate in Its Cavity,” Opt. Commun. 68, 55–57 (1988).
[CrossRef]

Zhang, S.

S. Yang, S. Zhang, “The Frequency Split Phenomena of HeNe Laser with a Rotation Quartz Plate in Its Cavity,” Opt. Commun. 68, 55–57 (1988).
[CrossRef]

Opt. Commun. (1)

S. Yang, S. Zhang, “The Frequency Split Phenomena of HeNe Laser with a Rotation Quartz Plate in Its Cavity,” Opt. Commun. 68, 55–57 (1988).
[CrossRef]

Opt. Eng. (1)

R. W. Wlezien et al., “Characterization of Rotating Flexible Disks Using a Laser Doppler Vibrometer,” Opt. Eng. 23, 436–442 (1984).
[CrossRef]

Other (1)

Polytec Company product.

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Figures (8)

Fig. 1
Fig. 1

Gain curves for Ne atoms with Zeeman splitting.

Fig. 2
Fig. 2

Operation points A and B for right and left circularly polarized light.

Fig. 3
Fig. 3

Experimental setup for measuring the beat frequency: M1, M2, mirrors; T, discharge tube; P, polarizer; D, scanning interferometer; Q, quartz crystal plate.

Fig. 4
Fig. 4

Experimental results.

Fig. 5
Fig. 5

Mode splitting.

Fig. 6
Fig. 6

One configuration of a BTDFL: C, crystalline of the quartz plate; Q, quartz plate.

Fig. 7
Fig. 7

Another configuration of a BTDFL: 1, discharge tube; 2,3, mirrors; 4, window plate; 5, quartz crystal plate; 6, rotation axis; 7, piezoelectric transducer.

Fig. 8
Fig. 8

Experimental setup for measuring the beat frequency: A, detector; B, counter; C, polarizer; D, piezoelectric transducer; E, adjustable voltage source.

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