Comparison of the Optical Planar Waveguide
The variety of fiber sensors is much higher than that based on planar waveguides, but their fabrication is much more complicated, as evidenced by the overwhelming number of theoretical works using
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Comparison Planar Optical Waveguide
Progress and technical challenge for planar waveguide devices:
Silica-based planar lightwave circuits (PLCs) are waveguide devices that integrate fiber-matched optical waveguides on silicon or glass substrate to provide an efficient means of interaction for the guided
A comprehensive review on optics and optical materials for planar
A systematic comparison of optics and optical material design parameters and the merit of the different PLC systems have been explored within this review to serve as a ready reference for its
Recent Progress in Optical Waveguide Technologies
In this article, we report on the recent progress made in optical waveguide technologies that is helping to achieve extremely compact and highly integrated
Waveguide (optics)
An optical waveguide is a physical structure that guides electromagnetic waves in the optical spectrum. Common types of optical waveguides include optical fiber waveguides, transparent dielectric
Progress in Planar Optical Waveguides | Springer Nature Link
This book provides a comprehensive description of various slab waveguide structures ranged from graded-index waveguide to symmetrical metal-cladding waveguide. In this book, the transfer Matrix
(PDF) Comparison of the Optical Planar Waveguide Sensors
Analytical expressions connecting the characteristics of the sensitive elements of the three types of sensors with the parameters of the grating and the corresponding waveguide.
Optical meta-waveguides for integrated photonics and beyond
We highlight how meta-optics can infuse new degrees of freedom to waveguide-based devices and systems, by enhancing light-matter interaction strength to drastically boost device
Recent Progress in Optical Waveguide Technologies Enabling Integration
In this article, we report on the recent progress made in optical waveguide technologies that is helping to achieve extremely compact and highly integrated optical devices.
Comparison of the Optical Planar Waveguide Sensors
Comparison of the properties of sensors based on planar waveguides showed that the main sensor characteristics are determined by the sensitivity of the constant propagation to a change
A Comparison of Approaches for Ultra-Low-Loss Waveguides
In this work, we compare three upper cladding approaches that can be used in such waveguides: PECVD SiO2, deposited and reflowed BPSG, and wafer-bonded thermal oxide (Fig. 1).