Title :
Binary optical true-time delay based on the white cell: design and demonstration
Author :
Anderson, Betty Lise ; Rabb, David J. ; Warnky, Carolyn M. ; Abou-Galala, Feras
Author_Institution :
ElectroSci. Lab., Ohio State Univ., Columbus, OH, USA
fDate :
4/1/2006 12:00:00 AM
Abstract :
An optical true-time delay device that uses a binary counting system in a modified White cell is demonstrated. The switching engine uses four spherical mirrors and a three-state digital micromirror array. The delay part, as designed, provides 6 bits of delay ranging from 78 ps to 5 ns, using a combination of dielectric blocks for short delays and lens trains for longer ones. Long lens trains are folded for compactness. The authors describe the design and demonstrate two of the 6 bits of delays experimentally. Delays were accurate to within the measurement resolution of 1.25 ps. The insertion loss varied from 3.1-5.2 dB, depending on delay. It was found that the micromirrors do not contribute significantly to the loss.
Keywords :
delays; lenses; micromechanical devices; micromirrors; optical arrays; optical delay lines; optical design techniques; optical losses; 3.1 to 5.2 dB; White cell; binary optical true-time delay; insertion loss; lens trains; spherical mirrors; three-state digital micromirror array; Delay; Engines; Lenses; Micromechanical devices; Micromirrors; Mirrors; Optical design; Optical devices; Optical signal processing; Phased arrays; Array signal processing; beam steering; microelectromechanical devices; optical delay lines; optical signal processing; phased array radars;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2006.871032
