P. W. Smith scite author profile

A novel design for an all-fiber bandpass filter based on a multimode interference reimaging phenomenon is presented. The filter has achieved low insertion loss with adequate bandwidth and isolation for coarse wavelength-division multiplexing. The filter can easily be made with any central wavelength that is compatible with the single-mode fiber used for its construction. The measured filter performance matches the theoretical predictions well. The filter can have broad applications in fiber-optic telecommunications, spectroscopy, and sensing.

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Nonlinear optical glasses for ultrafast optical switches

Friberg

Smith

1987

IEEE J. Quantum Electron.

377

120

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Continuous-wave self-focusing and self-trapping of light in artificial Kerr media

Ashkin¹,

Dziedzic²,

Smith³

1982

Opt. Lett.

171

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Artificial Kerr media made from liquid suspensions of submicrometer particles were used as a new type of nonlinear medium for observing cw self-focusing and self-trapping of laser beams. Self-trapping of TEM(00)-mode beams and higher-order TEM(01)- and TEM(01)* -mode beams were investigated. Saturation-free operation down to filament diameters of ~2 microm was observed. The independence of the critical power for self-trapping on the beam diameter in the unsaturated regime was confirmed for the first time to our knowledge. Values of the nonlinear coefficient were determined for a range of particle diameters from 0.038 to 0.234 microm.

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P. W. Smith

Room temperature excitonic nonlinear absorption and refraction in GaAs/AlGaAs multiple quantum well structures

Observation of spatial optical solitons in a nonlinear glass waveguide

All-fiber multimode interference bandpass filter

Nonlinear optical glasses for ultrafast optical switches

Continuous-wave self-focusing and self-trapping of light in artificial Kerr media

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