Phase from Defocused Color Images

Phase differences associated with a defocused wavefront can be determined from a single color image. The color image, which is a measurement of intensity as a function of wavelength, is used to calculate the change in intensity with respect to wavelength over the image plane. The change in intensity can then be used to estimate a phase difference associated with the defocused wavefront using two-dimensional fast Fourier transform solvers. The phase difference can be used to infer information about objects in the path of the defocused wavefront. For example, it can be used to determine an object's shape, surface profile, or refractive index profile. It can also be used to calculate path length differences for actuating adaptive optical systems. Compared to other techniques, deriving phase from defocused color images is faster, simpler, and can be implemented using standard color filters.

Researchers

Laura Waller / George Barbastathis

Departments: Department of Mechanical Engineering
Technology Areas: Communication Systems: Optical / Computer Science: Networking & Signals / Sensing & Imaging: Optical Sensing
Impact Areas: Advanced Materials

  • phase from defocused color images
    United States of America | Granted | 8,432,553

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