Spontaneous Oscillation and Self-Pumped Phase Conjugation in a Photorefractive Polymer Optical Amplifier

Optical processing with photorefractive polymers depends on achieving high optical gain, which depends exponentially on the product of the interaction length and the gain coefficient. By use of several polymer layers to increase the overall interaction length and a new high-performance photorefractive polymer composite, the overall optical one-pass gain becomes as large as a factor of 5. For a two-layer sample placed in an optical cavity made with two concave mirrors, spontaneous oscillation due to two-beam coupling gain was observed. Because only one pumping beam is required, this configuration also acts as a self-pumped phase-conjugating mirror with a reflectivity of 13 percent for an applied electric field of 75 volts per micrometer, marking a milestone for this growing class of optoelectronic materials.

[1]  W E Moerner,et al.  Electric-field-switchable stratified volume holograms in photorefractive polymers. , 1994, Optics letters.

[2]  D M Lininger,et al.  Optical tracking novelty filter. , 1987, Optics letters.

[3]  Robert W. Hellwarth,et al.  Generation of time-reversed wave fronts by nonlinear refraction* , 1977 .

[4]  S. M. Silence,et al.  C60 sensitization of a photorefractive polymer , 1992 .

[5]  Amnon Yariv,et al.  Coherent oscillation by self‐induced gratings in the photorefractive crystal BaTiO3 , 1982 .

[6]  N. Peyghambarian,et al.  A photorefractive polymer with high optical gain and diffraction efficiency near 100% , 1994, Nature.

[7]  H. Kogelnik B.S.T.J. briefs: Holographic image projection through inhomogeneous media , 1965 .

[8]  J. Feinberg,et al.  Phase-conjugating mirror with continuous-wave gain. , 1980, Optics letters.

[9]  Lei Zhang,et al.  High-Performance Photorefractive Polymers , 1994, Science.

[10]  Scott,et al.  Observation of the photorefractive effect in a polymer. , 1991, Physical review letters.

[11]  J. White,et al.  Laser with dynamic holographic intracavity distortion correction capability , 1982 .

[12]  Anderson,et al.  Propagation of light beams in photorefractive media: Fanning, self-bending, and formation of self-pumped four-wave-mixing phase conjugation geometries. , 1994, Physical review letters.

[13]  D. Gabor Microscopy by reconstructed wave-fronts , 1949, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.

[14]  J. Feinberg,et al.  Self-pumped, continuous-wave phase conjugator using internal reflection. , 1982, Optics letters.

[15]  W. E. Moerner,et al.  POLYMERIC PHOTOREFRACTIVE MATERIALS , 1994 .

[16]  A. Gharavi,et al.  Multifunctional Polymers Exhibiting Photorefractive Effects , 1996 .