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The Imaging Science Journal Volume 51, 2003 - Issue 3
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Original Articles

Digital speckle radiography—a new ballistic measurement technique

S G GranthamCavendish Laboratory, Department of Physics and Chemistry of Solids, University of Cambridge, UK
,
H T GoldreinCavendish Laboratory, Department of Physics and Chemistry of Solids, University of Cambridge, UK
,
W G ProudCavendish Laboratory, Department of Physics and Chemistry of Solids, University of Cambridge, UK
&
J E FieldCavendish Laboratory, Department of Physics and Chemistry of Solids, University of Cambridge, UK
Pages 175-186 | Received 08 Aug 2002, Accepted 30 Oct 2002, Published online: 06 Oct 2016

REFERENCES

  • Exner, K. Über die Fraunhofer'schen Ringe, die Quetelet'sehen Streifen und Verwandte Erscheinungen. Sitzungber. Kaiser. Akad. Wiss., 1877, 76, 522–532.
  • Lengyel, B. A. Laser Generation of Light by Stimulated Emission, 1962, p. 22 (John Wiley, New York).
  • Synnergren, P. White light and X-ray digital speckle photography. Doctoral thesis, Luleå University of Technology, Luleå, Sweden, 2000, p. 3.
  • Allen, L. and Jones, D. G. C. An analysis of the granularity of scattered optical laser light. Phys. Lett., 1963, 7, 321–323.
  • Robinson, D. W. and Reid, G. T. Interferogram Analysis, 1995, pp. 58–61 (Institute of Physics, Bristol).
  • Archbold, E., Burch, J. M. and Ennos, A. E. Recording of in-plane surface displacement by double-exposure speckle photography. Optica Acta, 1970, 17, 883–898.
  • Sirohi, R. S. Speckle Metrology, 1993, p. 43 (Marcel Dekker, New York).
  • Cloud, G. and Conley, E. A whole-field interferometric scheme for measuring strain and flow rates of glacier and other natural surfaces. J. Glaciology, 1983, 29, 492–497.
  • Huntley, J. M. High-speed laser speckle photography. Part 1: repetitively Q-switched ruby laser light source. Opt. Engng, 1994, 33, 1692–1699.
  • Huntley, J. M. and Field, J. E. High-speed speckle photography. Part 2: rotating mirror camera control system and applications. Opt. Engng, 1994, 33, 1700–1707.
  • Peters, W. H. and Ranson, W. F. Digital imaging techniques in experimental stress analysis. Opt. Engng, 1982, 21(23), 427–431.
  • Sjödahl, M. Electronic speckle photography applied to in-plane deformation and strain field measurements. Doctoral thesis, Luleå University of Technology, Luleå, Sweden, 1995, p. 10.
  • Sutton, M. A., Wolters, W. J., Peters, W. H., Ransom, W. F. and McNeill, S. R. Determination of displacements using an improved digital correlation method. Image Vision Computing, 1983, 1(3), 133–139.
  • Bruck, H. A., McNeill, S. R., Sutton, M. A. and Peters III, W. H. Digital image correction using Newton-Raphson method of partial differential corrections. Expl Mechanics, 1989, 29, 261–267.
  • James, M. R., Morris, W. L. and Cox, B. N. A high accuracy automated strain-field mapper. Expl Mechanics, 1990, 30, 60–67.
  • Willert, C. E. and Gharib, M. Digital particle image velocimetry. Experiments in Fluids, 1991, 10, 181–193.
  • Sjödahl, M. and Benckert, L. R. Electronic speckle photography: analysis of an algorithm giving the displacement with subpixel accuracy. Appl. Optics, 1993, 32, 2278–2284.
  • Sjödahl, M. Electronic speckle photography: increased accuracy by non integral pixel shifting. Appl. Optics, 1994, 33, 6667–6673.
  • Synnergren, P. and Sjödahl, M. A stereoscopic digital speckle photography system for 3-D displacement field measurements. Optics Lasers Engng, 1999, 31, 425–443.
  • Russell, S. S. and Sutton, M. A. Strain-field analysis acquired through correlation of X-ray radiographs of a fibre-reinforced composite laminate. Expl Mechanics, 1989, 29, 237–240.
  • Winer, A. Did you see that! For Him Mag., 2001, 139, 62–63.
  • James, B. Direct evidence for ceramic comminution ahead of a penetrator. In Proceedings of the 17th International Symposium on Ballistics, 1998, pp. 9–16.
  • Bourne, N. K., Forde, L. C, Millet, J. C. F. and Field, J. F. Impact and penetration of a borosilicate glass. J. Phys. Paris IV, 1997, 7, Colloq. C3, 157–162.
  • Synnergren, P., Goldrein, H. T. and Proud, W. G. Application of digital speckle photography to flash X-ray studies of internal deformation fields in impact experiments. Appl Optics, 1999, 38, 4030–4036.
  • Grantham, S. G. and Proud, W. G. Digital speckle X-ray flash photography. In Proceedings of the 12th APS topical meeting on Shock Compression of Condensed Matter (Eds M. D. Furnish, N. N. Thadhani and Y. Horie), 2002, pp. 803–806 (Americah Institute of Physics, New York).
  • Goldrein, H. T., Grantham, S. G., Proud, W. G. and Field, J. E. The study of internal deformation fields in granular materials using 3D digital speckle X-ray flash photography. In Proceedings of the 12th APS Topical Meeting on Shock Compression of Condensed Matter (Eds M. D. Furnish, N. N. Thadhani and Y. Horie), 2002, pp. 1105–1108 (American Institute of Physics, New York).
  • Hedström, J. Digital speckle correlation as an information carrier (in Swedish). Licentiate thesis, Luleå University, Luleå, Sweden, 1999.
  • Synnergren, P. and Goldrein, H. T. Dynamic measurements of internal three-dimensional displacement fields with digital speckle photography and flash X-rays. Appl. Optics, 1999, 38, 5956–5961.
  • Walters, W. P. and Zukas, J. A. Fundamentals of Shaped Charges, 1989, pp. 2–4 (John Wiley, New York).
  • Tsembelis, K., et al. The shock Hugoniot properties of cement paste up to 5 GPa. In Proceedings of the 11th APS Topical Meeting on Shock Compression of Condensed Matter 1999 (Eds M. D. Furnish, L, C. Chhabildas and R. S. Hixson), 2000, pp. 1267–1270 (American Institute of Physics, New York).
  • Paterson, A. R. A First Course in Fluid Dynamics, 1983, p. 330 (Cambridge University Press, Cambridge).

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