An optical all-pass filter realized by using self-compensation of loss
Lu Xu, Yuan Yu, Xiaolong Liu, Xuewen Shu, Xinliang Zhang

TL;DR
This paper presents a novel method to realize optical all-pass filters with inherent transmission loss by using self-compensation, demonstrated through a silicon-on-insulator structure, expanding practical applications of APFs.
Contribution
It introduces a self-compensation technique for lossy all-pass filters, enabling their practical realization in optical systems where loss is unavoidable.
Findings
Successfully fabricated a lossy APF using SOI technology.
Demonstrated self-compensation of loss in optical APFs.
The method can be extended to electrical APFs.
Abstract
Filters are key devices in optical systems and are usually applied to signal suppression or selection based on their amplitude frequency responses. Different from amplitude filtering, an all-pass filter (APF) is a unique type of filter that exhibits a uniform amplitude and variable phase in the frequency response. Traditionally, an APF is designed to be ideal and lossless, which is impossible in practice. Here we demonstrate a method of realizing an APF even when transmission loss exists, and a possible structure for realizing the lossy APF is proposed. The method indicates that a lossy APF can be realized by introducing self-compensation of loss to the structure of an ideal single-stage APF, and an APF based on silicon-on-insulator (SOI) foundry is fabricated and demonstrated. The method of self-compensation of loss can also be used to realize APFs in the electrical domain. We…
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Taxonomy
TopicsPhotonic and Optical Devices · Optical Network Technologies · Advanced Fiber Laser Technologies
