论文信息 - 100GHz electrically tunable planar Bragg grating via nematic liquid crystal overlay for reconfigurable WDM networks.

100GHz electrically tunable planar Bragg grating via nematic liquid crystal overlay for reconfigurable WDM networks.

Novel liquid crystal-based integrated optical devices with >140GHz electrical tuning are presented. Initial results with Bragg wavelength tuning covering five 25GHz WDM channel spacing have been achieved with 170V (peak-to-peak) sinusoidal voltages applied across electro-patterned ITO-covered glass electrodes placed 60μm apart. These prototype devices were fabricated using direct UV grating writing, with an evanescent field coupling into a liquid crystal overlay through an etched window. Two distinct threshold conditions are observed, manifesting only during the increase of supply voltage and forming a hysteretic tuning curve. The secondary threshold which takes place at higher voltages has never been reported before. We believe these threshold points are related to the formation and bleaching of disclination lines. Geometric and effective index consideration could not explain the similar tuning behaviour displayed by both TE and TM polarised light.

[1] Corin B E Gawith,et al. Physical observation of single step UV-written integrated planar Bragg structures and their application as a refractive-index sensor. , 2005, Applied optics.

[2] Roland Ryf,et al. Wavelength selective switching for optical bandwidth management , 2006, Bell Labs Technical Journal.

[3] Ru-Pin Pan,et al. Voltage-Controlled Optical Fiber Coupler Using a Layer of Low-Refractive-Index Liquid Crystal with Positive Dielectric Anisotropy , 1995 .

[4] Gregory D. Emmerson,et al. Planar waveguide hygrometer and state sensor demonstrating supercooled water recognition , 2005 .

[5] Gaetano Assanto,et al. Electro-optic routing in a nematic liquid-crystal waveguide. , 2005, Applied optics.

[6] I.J.G. Sparrow,et al. 35 GHz tunable planar Bragg grating using nematic liquid crystal overlay , 2005, CLEO/Europe. 2005 Conference on Lasers and Electro-Optics Europe, 2005..

[7] T. Erdogan. Fiber grating spectra , 1997 .

[8] Morten Ibsen,et al. Fabrication of directly UV-written channel waveguides with simultaneously defined integral Bragg gratings , 2002 .

[9] Luigi Sirleto,et al. Electro-optical switch and continuously tunable filter based on a Bragg grating in a planar waveguide with a liquid crystal overlayer , 2002 .