Multimode waveguide crossing based on square Maxwell's fisheye lens
S. Hadi Badri, H. Rasooli Saghai, Hadi Soofi

TL;DR
This paper presents a novel multimode waveguide crossing design using a square Maxwell's fisheye lens based on transformation optics, achieving ultrawide bandwidth, low loss, and minimal crosstalk on silicon platforms.
Contribution
The work introduces a new waveguide crossing structure employing a Maxwell's fisheye lens with two fabrication approaches, enhancing multimode routing performance in MDM systems.
Findings
Ultrawide bandwidth from 1260 to 1675 nm.
Low insertion loss and crosstalk for TE modes.
Supports high-fidelity pulse transmission.
Abstract
Mode-division multiplexing (MDM) is an emerging large-capacity data communication technology utilizing orthogonal guiding modes as independent data streams. One of the challenges of multimode waveguide routing in MDM systems is decreasing the mode leakage of waveguide crossings. In this article, a square Maxwell's fish-eye lens as waveguide crossing medium based on quasi-conformal transformation optics is designed and implemented on the silicon-on-insulator platform. Two approaches were taken to realize the designed lens: graded photonic crystal and varying the thickness of Si slab waveguide. Three-dimensional numerical simulations show that the designed multimode waveguide crossing has an ultrawide bandwidth from 1260 to 1675 nm with a compact footprint of only . For the first three transverse electric modes , the designed…
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