Design and Simulation of 1×2 Y-branch optical power splitter with s-bend waveguide and study on the Variation of Transmitted power with Variation of Components Width
Pages : 1293-1295
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Abstract
This paper aims to investigate the device based on symmetric Y-branch comprising of S-bend waveguide. Initially, a symmetric Y-junction based 1×2 optical power splitter is designed, which can deliver the best result in simulated performance. The design is, however, not technology-compatible to be fabricated in LiTaO3, and therefore, the design is modified by incorporating a finite gap at the splitting junction, instead of zero-gap. Inclusion of this gap in the design slightly deteriorates the simulated performance of the splitter, however, a relatively better post fabrication performance is expected in terms of total insertion loss, non-uniformity and the polarization dependent loss. Beam propagation method is applied for this work, where S-bend waveguides are designed for optimal field matching in each Y-branch section of the optical splitter.
Keywords : Beam propagation method ;Insertion loss ;Non-uniformity; Optical splitter ;Polarization, dependent loss; Y-junction.
Article published in International Journal of Current Engineering and Technology, Vol.3,No.4(Oct- 2013)
MECHPGCON, MIT College of Engineering, Pune, India
AMET, MIT College of Engineering, Pune, India
International Conference on Advances in Mechanical Sciences 
International Symposium on Engineering and Technology
International Conference on Women in Science and Engineering
