Comparison of calculated and measured refractive index profiles of continuous wave ultravoilet written waveguides in LiNbO3 and its analysis by effective index based matrix method

The refractive index profiles of the continuous wave (CW) UV-written waveguides in congruent LiNbO3 crystal are theoretically computed and compared with the evaluated profiles from the measured mode intensity distributions. It has been observed that change in activation energy of Li-indiffusion affe...

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Bibliographic Details
Published in:Journal of applied physics 2015-02, Vol.117 (5)
Main Authors: Ghosh, Tapas, Samanta, Bidyut, Jana, Paresh Chandra, Ganguly, Pranabendu
Format: Article
Language:English
Subjects:
Activation energy
Applied physics
Bend radius
Computation
Conformal mapping
Continuous radiation
Lithium niobates
Mathematical analysis
Propagation modes
Refractivity
Space charge
Temperature
Ultraviolet lasers
Wave propagation
Waveguides
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Summary:The refractive index profiles of the continuous wave (CW) UV-written waveguides in congruent LiNbO3 crystal are theoretically computed and compared with the evaluated profiles from the measured mode intensity distributions. It has been observed that change in activation energy of Li-indiffusion affects the computed refractive index profiles to a large extent, and the computed and measured profiles match fairly well for 305 nm and 275 nm written waveguides with an activation energy equal to ∼1.3 eV. The calculated refractive index profiles are used in effective index based matrix method (EIMM) to compute the guided mode propagation constants of these waveguides at 632.8 nm transmitting wavelength. For both the writing wavelengths, the waveguides are single mode in nature, which tally with experimental results. The bending losses of the bent waveguides for different bending radii are also computed using a conformal mapping technique along with EIMM. Finally, the behavior of CW UV-written waveguides under an applied electric field is physically analyzed. Accumulated space charge for 305 nm written waveguides is identified for its comparatively low electro-optic coefficient than the waveguide written with 275 nm UV laser.
ISSN:0021-8979
1089-7550
DOI:10.1063/1.4907682