Title :
Adaptive holograms and applications using photorefractive quantum wells
Author_Institution :
Dept. of Phys., Purdue Univ., West Lafayette, IN, USA
Abstract :
In this paper, I describe three separate applications that share virtually nothing in common other than the use of an adaptive holographic film. These are: 1) femtosecond pulse shaping and dynamic compensation; 2) optical imaging through turbid media; and 3) laser-based ultrasound detection. We have implemented a Fourier-domain ultrafast pulse shaper that uses a dynamic holographic film in the Fourier plain instead of the conventional static or actively-addressed spatial filters. This can be used as an optically programmable space-to-time converter that can use light to shape light. We use a Hilbert-Gaussian pulse that was optically shaped by the photorefractive quantum wells in the pulse shaper. This pulse-shaper is adaptive, and can dynamically compensate for time-varying dispersion, including arrival-time-drift
Keywords :
adaptive optics; holography; photorefractive materials; Fourier-domain ultrafast pulse shaper; Hilbert-Gaussian pulse; adaptive holograms; arrival-time-drift; dynamic compensation; dynamic holographic film; femtosecond pulse shaping; laser-based ultrasound detection; light shaping; optical imaging; optically programmable space-to-time converter; photorefractive quantum wells; time-varying dispersion; turbid media; Holographic optical components; Holography; Optical films; Optical filters; Optical imaging; Optical pulse shaping; Photorefractive materials; Pulse shaping methods; Ultrafast optics; Ultrasonic imaging;
Conference_Titel :
LEOS '99. IEEE Lasers and Electro-Optics Society 1999 12th Annual Meeting
Conference_Location :
San Francisco, CA
Print_ISBN :
0-7803-5634-9
DOI :
10.1109/LEOS.1999.811822
