论文信息 - Efficient second harmonic generation in polymeric channel waveguides using modal dispersion

Efficient second harmonic generation in polymeric channel waveguides using modal dispersion

Summary form only given. Second harmonic generation (SHG) is getting renewed attention through possible applications to all-optical switching, spatial solitary waves, etc. through cascading. Phase matching with use of modal dispersion, first demonstrated in thin films in the early 1970s, typically requires excellent control of the waveguide thickness, but can be easily implemented in low loss configurations, since it does not require any modulation of waveguide parameters along the propagation. We demonstrate efficient SHG in a channel waveguide made of DANS (4-dimethylamino-4'-nitrostilbene) side-chain polymer with a figure of merit /spl eta/=1.2%/W-cm/sup 2/ over a phase-matched length of 0.3 cm, which is, to our knowledge, the best combined values reported for poled polymers to date.

G.I. Stegeman | M. Jager | G.R. Mohlmann | H.G. Horsthuis | M.C. Flipse

[1] Dug Young Kim,et al. Cascading: Modelling a New Route to Large Optical Nonlinearities and All-Optical Devices , 1995 .

[2] M. Asobe,et al. Quasi‐phase‐matched second harmonic generation in a polymer waveguide with a periodic poled structure , 1996 .

[3] Robert A Norwood,et al. Quasi-phase-matched frequency doubling over 5 mm in periodically poled polymer waveguide , 1990 .

[4] Comparison of quasi‐phase‐matching geometries for second‐harmonic generation in poled polymer channel waveguides at 1.5 μm , 1996 .

[5] J. Boyd,et al. Wideband CO2 Laser Second Harmonic Generation Phase Matched in GaAs Thin‐Film Waveguides , 1971 .

[6] M. Kishimoto,et al. Efficient Second-Harmonic Generation with a Slab Waveguide Composed of Periodically Corona-Poled Organic Copolymer , 1992 .

[7] Keisuke Sasaki,et al. Phase-matched second harmonic generation in poled dye/polymer waveguide. , 1991, Applied optics.

[8] H. Bertoni,et al. Guided-wave optoelectronics : device characterization, analysis, and design , 1995 .

[9] C. J. E. Seppen,et al. Efficient modal dispersion phase-matched frequency doubling in poled polymer waveguides , 1993 .

[10] M M Fejer,et al. Quasi-phase-matched optical parametric amplification and oscillation in periodically poled LiNbO(3) waveguides. , 1995, Optics letters.