Combining organic films with high Kerr-nonlinearities and highly
optimized photonic nanostructures could lead to new fast switching
elements. Fabry-Perot cavities are fabricated by incorporating an
organic material between two dielectric mirrors. Using femto-second
pump and probe measurements we characterize these hybrid 1-D
photonic band gap structures for various organic materials. By
varying the pump beam wavelength across the cavity resonance we are
able to delineate between the various underlying nonlinear
processes. Comparing these measurements with computations we are
able to quantify both the refractive and absorptive nonlinear
coefficients of various organic materials.
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