Linear optical characterization of nonlinear optical polymers for integrated optics

Nonlinear optical (NLO) materials provide the basis for an array of active optical devices under development throughout several high technology industries. Applications would include communications, data storage, and computing. Active optical devices can be used to alter light in order to encode or

## Abstract After synthesizing two chromophores with imine, we prepared acrylic nonlinear optical (NLO) polymers that contained the chromophores for all‐optical wavelength converters in optical fiber communication. The polymers show high __d__~33~, 35 pm · V^−1^, at 1.55 μm (pumping beam), consider

Two-component simultaneous interpenetrating networks ( IPN ) of the poly ( 4- [[2-(methylacryloxy ) ethyl ] ethylamino ] -4-nitroazobenzene-co-methyl methacrylate) (PDR1MA-co-MMA)/poly (2,6-dimethyl-1,4-phenylene oxide) (PPO) system, the PDR1MA/PPO system and 4 -[[2-(acetoxy)ethyl]ethylamino]-4-nitr

Two photocrosslinkable NLO polymers of poly(glycidyl methacrylate) substituted with 4-nitro-4Ј-hydroxyl stilbene (PGMAS) and acryloyl-functionalized epoxybased polymer (PENAA) carrying 4-nitroaniline moieties were synthesized and characterized. By using the sulfonium salt cationic photoinitiator BDS