Some fundamental properties of speckle

A speckle pattern formed in polarized monochromatic light may be regarded as resulting from a classical random walk in the complex plane. The resulting irradiance fluctuations obey negative exponential statistics, with ratio of standard deviation to mean (i.e., contrast) of unity. Reduction of this contrast, or smoothing of the speckle, requires diversity in polarization, space, frequency, or time. Addition of M uncorrelated speckle patterns on an intensity basis can reduce the contrast by 1/√M. However, addition of speckle patterns on a complex amplitude basis provides no reduction of contrast. The distribution of scale sizes in a speckle pattern (i.e., the Wiener spectrum) is investigated from a physical point of view.

[1]  C. Smyth LVI. A table of the beats, on Mr. William Hawkes's patent organs and piano-fortes, calculated by the Rev. C. J. Smyth; and communicated, with some remarks, by Mr. John Farey , 1811 .

[2]  Étude sur la constitution de la lumière non polarisée et de la lumière partiellement polarisée , 1865 .

[3]  Lord Rayleigh F.R.S. XII. On the resultant of a large number of vibrations of the same pitch and of arbitrary phase , 1880 .

[4]  L. Rayleigh XXXI. On the problem of random vibrations, and of random flights in one, two, or three dimensions , 1919 .

[5]  J A Ratcliffe,et al.  Investigation of molecular motions in supercooled liquids by Mossbauer scattering D C Champeney and F W D Woodhams Some Aspects of Diffraction Theory and their Application to the Ionosphere , 1956 .

[6]  L. Mandel Fluctuations of Photon Beams: The Distribution of the Photo-Electrons , 1959 .

[7]  J. Goodman Statistical Properties of Laser Speckle Patterns , 1963 .

[8]  B. M. Oliver Sparkling spots and random diffraction , 1963 .

[9]  L. I. Goldfischer Autocorrelation Function and Power Spectral Density of Laser-Produced Speckle Patterns , 1965 .

[10]  J. C. Dainty,et al.  Some Statistical Properties of Random Speckle Patterns in Coherent and Partially Coherent Illumination , 1970 .

[11]  E. N. Leith,et al.  Quasi-holographic techniques in the microwave region , 1971 .

[12]  Statistics of coherent light speckle produced by stationary and moving apertures , 1974 .

[13]  Atul K. Jain,et al.  Space and wavelength dependence of speckle intensity , 1974 .

[14]  G. Parry,et al.  Some effects of surface roughness on the appearance of speckle in polychromatic light , 1974 .

[15]  J. Perrin,et al.  Optical surface roughness determination using speckle correlation technique. , 1975, Applied optics.