Khalida Messaad scite author profile

Abstract:In order to take advantage of the very high nonlinear susceptibility of conjugated polymer materials, Poly(3-AlkylThiophene)s, P3AT, were synthesized in the laboratory. The physical, thermomechanical and linear optical properties of synthesized P3AT have been investigated and the first experimental attempts at creating nonlinear optical waveguides and determining their characteristics are presented. After synthesizing P3AT, the relationships between polymer chain characteristics and mechanical properties are investigated to see if the polymer is suitable for optical waveguide process technology. We also examine the optical attenuation of the synthesized material, a crucial factor in anticipating the relative opacity of the future component. For the first time we present the absorption spectrum of 3-Octylthiophene molecules in the Near Infra-Red (NIR) region that suggests optical losses for the material are about 0.6 dB.cm -1 at 1550 nm. Next we examined several waveguide structures such as ridge, buried and Strip Loaded WaveGuides (SLWG) based on P3AT material. For the buried waveguides, we have observed the signal transmission and in our opinion the low optical transmission of P3AT ridge and SLWG could be attributed to extrinsic losses (mainly scattering) due to both the remaining insoluble products in the polymer and to the poor adhesion between optical layers.

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Advanced analysis of optical loss factors in polymers for integrated optics circuits

Bosc

Maalouf

Messaad

et al. 2013

Optical Materials

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Study of optical losses in poly(3‐octylthiophene) planar and inverted RIB waveguides

Messaad¹,

Charrier²,

Mosqueron³

et al. 2011

J of Applied Polymer Sci

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Poly(3-octylthiophene), (P3OT) in addition to its electronics properties exhibits a high Kerr coefficient, n 2 , due to its third order nonlinear dielectric susceptibility. At the wavelength of 1550 nm, this coefficient n 2 is one of the highest. So, this material should be suitable to build integrated all optical switching devices. To construct this device, it is necessary to make a singlemode optical waveguide. For the time being, such a P3OT waveguide has never been obtained due to excessive optical losses. In view to produce single-mode waveguide with P3OT as a core, we investigated the different causes of these optical losses in the material and in the guiding structure. We characterized the optical transmission at key steps in its development. First, we demonstrated that the intrinsic polymer absorption is not a limiting factor at 1550 nm, and then we studied the transmission properties of planar (1-D confined light) and channel waveguides (2-D confined light). The results revealed that better transmission properties can be achieved using planar waveguides rather that confined channel waveguides. This article describes the development and the characterization of the guiding structures that enabled us to identify the main origins of optical losses.

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Khalida Messaad

Linear and Nonlinear Characterizations of Chalcogenide Photonic Crystal Fibers

Physical and Optical Properties of Poly(3-AlkylThiophene) with a View to the Fabrication of a Highly Nonlinear Waveguide~!2008-06-17~!2008-08-22~!2008-09-18~!

Advanced analysis of optical loss factors in polymers for integrated optics circuits

Study of optical losses in poly(3‐octylthiophene) planar and inverted RIB waveguides

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