Integrated TE optical isolator based on magneto-optical perturbation in coupled waveguides
Kimhong Chao, Vy Yam, Laurent Vivien, Béatrice Dagens

TL;DR
This paper introduces a new design for a TE optical isolator using magneto-optical effects in coupled waveguides to improve performance in photonic circuits.
Contribution
A novel operational principle for a TE optical isolator based on modal beating in a TMOKE coupled-waveguide system is proposed.
Findings
The new design achieves a 20 dB-isolation bandwidth of 35 nm.
The simulated device has a compact length of 500 µm.
The design avoids resonance and interferometer constraints.
Abstract
Photonic integrated circuits (PICs) increasingly require more advanced integrated functionalities and devices to meet the key application challenges. This evolution with the serial integration of optical functions in the same photonic circuit often results in internal reflections and optical feedback, which can specifically destabilize lasers. One solution to overcome this issue is to integrate an optical isolator at the output of the lasers. Among various proposed designs, magneto-optical-based isolators have significantly improved over the past decades in terms of compactness, insertion loss, isolation ratio, and spectral isolation bandwidth. Despite these improvements, the TE optical isolator still lacks performance. This paper introduces a new operational principle for a TE optical isolator based on modal beating in a transverse magneto-optical Kerr effect (TMOKE) coupled-waveguide…
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Taxonomy
TopicsMagneto-Optical Properties and Applications · Optical Network Technologies · Photonic and Optical Devices
