Title :
Time-domain image processing using dynamic holography
Author :
Ding, Y. ; Nolte, David D. ; Melloch, Michael R. ; Weiner, Andrew M.
Author_Institution :
Dept. of Phys., Purdue Univ., West Lafayette, IN, USA
Abstract :
Coded ultrafast optical pulses can be treated as one-dimensional (1-D) images in the time domain. We have converted spare-domain images into time-domain images using diffraction from dynamic holograms inside a Fourier pulse shaper, with photorefractive quantum wells (QW´s) used as the dynamic holographic medium. We present several examples, in which amplitude or phase modulation of the hologram writing beams modifies the complex spectrum of the femtosecond output, resulting in a time-domain image. Both storage and processing of time-domain images can be achieved, depending on the hologram writing geometry and power densities. Time-domain processing operations such as edge enhancement, Fourier transform, and correlation are demonstrated
Keywords :
Fourier transform optics; high-speed optical techniques; image processing; photorefractive materials; semiconductor quantum wells; 1D images; Fourier pulse shaper; Fourier transform optics; coded ultrafast optical pulses; complex spectrum; converted spare-domain images; dynamic hologram diffraction; dynamic holographic medium; dynamic holography; edge enhancement; femtosecond output; hologram writing beams; hologram writing geometry; photorefractive quantum wells; power densities; time-domain image processing; time-domain image storage; time-domain images; time-domain processing operations; Holography; Image converters; Image processing; Image storage; Optical diffraction; Optical pulse shaping; Optical pulses; Photorefractive materials; Time domain analysis; Writing;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/2944.686739
