Design and Analysis of Laser to Fibre Coupling System Using Holographic Optical Element
DOI:
https://doi.org/10.56042/ijpap.v63i5.11952Keywords:
Holographic Optical Element, Holographic coupler, Diffraction efficiency, Laser to Fiber CouplingAbstract
This paper focuses on design of cost effective, light – weight holographic coupler to couple laser light to optical fibre with reasonably appreciable diffraction efficiency. Optimization of film thickness , index modulation depth and fringe spacing have been made to design holographic optical element recorded in high resolution silver halide film for achieving maximum coupling efficiency for Laser-to-Fiber coupling systems within specific optical windows. A theoretical investigation has been conducted under the light of coupled wave theory-based formula to analyze the variation in diffraction efficiency with wavelength for different values of ‘ ’, and . Theoretical analysis revealed that for on-Brag illumination, diffraction efficiency of recorded hologram does not changes significantly with change in fringe spacing hence optimization of thickness (d) and refractive index modulation depth ( ) for a fixed fringe spacing to achieve peak efficiency for transmission window and . was made. The results on optimization of parameter ‘ ’ and to achieve a single laser to fibre coupler for the two optical windows and , operating at and 1 respectively are presented. The paper also discusses the advantages on use of Holographic Optical Elements (HOEs), such as lightweight, thin-film geometry, cost-effectiveness, and ease of fabrication. The paper also emphasizes on role of use of HOEs in technological advancement of optical communication for real world application.
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