Organic materials are widely studied for photonic applications because of their large nonlinear-optical (NLO) coefficients and their ease of fabrication.1 Poled polymer films are particularly attractive candidates for photonic applications, such as optical switches and modulators. NLO effects arise from hyperpolarizable constituent chromophores that are macroscopically aligned by an applied electric field.2
Origin of the two-dimensional optical nonlinearity of in-plane poled polymer films
S. Di BellaUltimo
1995-01-01
Abstract
Organic materials are widely studied for photonic applications because of their large nonlinear-optical (NLO) coefficients and their ease of fabrication.1 Poled polymer films are particularly attractive candidates for photonic applications, such as optical switches and modulators. NLO effects arise from hyperpolarizable constituent chromophores that are macroscopically aligned by an applied electric field.2File in questo prodotto:
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