Spatial convolution and correlation of optical fields via degenerate four-wave mixing

Creators: Pepper, David M.; AuYeung, John; Fekete, Dan; Yariv, Amnon

Abstract

A nonlinear optical technique is described that performs, essentially instantaneously, the functions of spatial correlation and convolution of spatially encoded waves. These real-time operations are accomplished by mixing spatially dependent optical fields in the Fourier-transform plane of a lens system. The use of a degenerate four-wave mixing scheme eliminates (in the Fresnel approximation) phase-matching restrictions and (optical) frequency-scaling factors. Spatial bandwidth-gain considerations and numerical examples, as well as applications to nonlinear microscopy, are presented.

Additional Information

© Copyright 1978 Optical Society of America Received March 13, 1978 This research was supported by the Army Research Office, Durham, North Carolina. D. M. Pepper is a Hughes Research Laboratory Doctoral Fellow. D. Fekete is a Weizmann Institute, Israel, Postdoctoral Fellow. D. M. Pepper acknowledges the support granted by the Hughes Aircraft Company. D. Fekete acknowledges the support granted by the Weizmann Institute of Israel.

Files

PEPol78.pdf

Files (407.5 kB)

Name	Size	Download all
PEPol78.pdf md5:40a8eac50d01b9a3369a401372be89d6	407.5 kB	Preview Download

Additional details

	All versions	This version
Views	0	0
Downloads	0	0
Data volume	0 Bytes	0 Bytes