Abstract

No abstract available.

Full Article  |  PDF Article

References

  • View by:
  • |
  • |
  • |

  1. E. Archibald, A. E. Ennos, “Displacement Measurement from Double-Exposure Laser Photographs” Opt. Acta 19, 253 (1972).
    [CrossRef]
  2. F. P. Chiang, “On a New Family of 2D and 3D Experimental Stress Analysis Techniques Using Laser Speckles,” Solid Mech. Arch. 3 (1), 1 (1978).
  3. F. P. Chiang, D. M. He, “State of Polarization of Transmission Laser Speckles,” Appl. Opt. (in press).
  4. F. P. Chiang, D. M. He, “State of Polarization of Reflection Laser Speckles,” Appl. Opt. (in press).
  5. F. P. Chiang, R. M. Juang, “Laser Speckle Interferometry for Plate Bending Problems,” Appl. Opt. 15, 2199 (1976).
    [CrossRef] [PubMed]
  6. F. P. Chiang, Q. B. Li, J. B. Chen, “Holo-speckle Interferometry,” in Proceedings, SESA Fifth International Congress on Experimental Mechanics, Montreal, June 1984 (SESA, Brookfield, Conn., 1984).

1978 (1)

F. P. Chiang, “On a New Family of 2D and 3D Experimental Stress Analysis Techniques Using Laser Speckles,” Solid Mech. Arch. 3 (1), 1 (1978).

1976 (1)

1972 (1)

E. Archibald, A. E. Ennos, “Displacement Measurement from Double-Exposure Laser Photographs” Opt. Acta 19, 253 (1972).
[CrossRef]

Archibald, E.

E. Archibald, A. E. Ennos, “Displacement Measurement from Double-Exposure Laser Photographs” Opt. Acta 19, 253 (1972).
[CrossRef]

Chen, J. B.

F. P. Chiang, Q. B. Li, J. B. Chen, “Holo-speckle Interferometry,” in Proceedings, SESA Fifth International Congress on Experimental Mechanics, Montreal, June 1984 (SESA, Brookfield, Conn., 1984).

Chiang, F. P.

F. P. Chiang, “On a New Family of 2D and 3D Experimental Stress Analysis Techniques Using Laser Speckles,” Solid Mech. Arch. 3 (1), 1 (1978).

F. P. Chiang, R. M. Juang, “Laser Speckle Interferometry for Plate Bending Problems,” Appl. Opt. 15, 2199 (1976).
[CrossRef] [PubMed]

F. P. Chiang, D. M. He, “State of Polarization of Transmission Laser Speckles,” Appl. Opt. (in press).

F. P. Chiang, D. M. He, “State of Polarization of Reflection Laser Speckles,” Appl. Opt. (in press).

F. P. Chiang, Q. B. Li, J. B. Chen, “Holo-speckle Interferometry,” in Proceedings, SESA Fifth International Congress on Experimental Mechanics, Montreal, June 1984 (SESA, Brookfield, Conn., 1984).

Ennos, A. E.

E. Archibald, A. E. Ennos, “Displacement Measurement from Double-Exposure Laser Photographs” Opt. Acta 19, 253 (1972).
[CrossRef]

He, D. M.

F. P. Chiang, D. M. He, “State of Polarization of Transmission Laser Speckles,” Appl. Opt. (in press).

F. P. Chiang, D. M. He, “State of Polarization of Reflection Laser Speckles,” Appl. Opt. (in press).

Juang, R. M.

Li, Q. B.

F. P. Chiang, Q. B. Li, J. B. Chen, “Holo-speckle Interferometry,” in Proceedings, SESA Fifth International Congress on Experimental Mechanics, Montreal, June 1984 (SESA, Brookfield, Conn., 1984).

Appl. Opt. (1)

Opt. Acta (1)

E. Archibald, A. E. Ennos, “Displacement Measurement from Double-Exposure Laser Photographs” Opt. Acta 19, 253 (1972).
[CrossRef]

Solid Mech. Arch. (1)

F. P. Chiang, “On a New Family of 2D and 3D Experimental Stress Analysis Techniques Using Laser Speckles,” Solid Mech. Arch. 3 (1), 1 (1978).

Other (3)

F. P. Chiang, D. M. He, “State of Polarization of Transmission Laser Speckles,” Appl. Opt. (in press).

F. P. Chiang, D. M. He, “State of Polarization of Reflection Laser Speckles,” Appl. Opt. (in press).

F. P. Chiang, Q. B. Li, J. B. Chen, “Holo-speckle Interferometry,” in Proceedings, SESA Fifth International Congress on Experimental Mechanics, Montreal, June 1984 (SESA, Brookfield, Conn., 1984).

Cited By

OSA participates in CrossRef's Cited-By Linking service. Citing articles from OSA journals and other participating publishers are listed here.

Alert me when this article is cited.


Figures (3)

Fig. 1
Fig. 1

Optical arrangement for real-time laser speckle photography.

Fig. 2
Fig. 2

Young’s fringe patterns at A due to different central deflections: (a) geometric configuration of the specimen, (b) δ1 = 0.0002 in., (c) δ2 = 0.0004 in., (d) δ3 = 0.0006 in.

Fig. 3
Fig. 3

(a),(b),(c) Speckle slope contours due to central deflections: δ1 = 0.0002 in., δ2 = 0.0004 in., δ3 = 0.0006 in., respectively; (d) holographic deflection contours.

Metrics