Tapered design of wavelength division multiplexing devices

Inverse Design of a High-Performance Wavelength Division

This article introduces topology optimization theory into the design of topological photonic crystals, aiming to achieve the inverse design of microwave wavelength division multiplexers.

WAVELENGTH-DIVISION-MULTIPLEXING

In conclusion, group velocity effects in thin-film filters can be utilized to obtain compact, cost-effective wavelength multiplexing and demultiplexing devices that use a single multilayer structure to separate

Design of wavelength division multiplexing devices based on

igned WDM device has two channels at the wavelength regions of 1470-1523 nm and 1548- 609 nm, respectively. The transmittance contrast of the two channels can be as high as 22.4 dB and 24.9 dB.

On-chip, inverse-designed active wavelength division

The authors demonstrate a cutting-edge THz signal processing on-chip active wavelength division multiplexer (WDM) system operating at THz frequencies.

Inverse-Designed Multidimensional-Division-Multiplexing Photonic

Herein, we demonstrate a breakthrough in an ultradensely integrated hybrid wavelength/mode/polarization-division-multiplexing photonic circuit based on an inverse-designed

Wavelength Division Multiplexing

An interferometric device uses 2 interfering paths of different lengths to resolve wavelengths Typical configuration: 2 3-dB directional couplers connected with 2 paths having different lengths

On-chip multi-dimensional multiplexing communication using tapered

In this work, we propose an on-chip multi-dimensional (de)multiplexer for mode and wavelength channels via designing tapered adiabatic micro-ring resonators (TAMR), and perform a 4

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