Ultra-Broadband Polymer 1 x 2 Thermo-Optic Mode Switch

Optical mode switch is a key device for reconfigurable mode-division-multiplexing (MDM) technique. Here, an ultra-broadband 1x2mode switch based on cascaded Mach-Zehnder interferometer and asymmetric Y-branch is proposed. The input E-00 or E-10 mode will be converted to E-00 mode and switched between two output ports by changing the working state of electrode. When E-00 mode is launched, the measured insertion loss of fabricated switch is 3.3 dB (off-state)/3.4 dB (on-state), and corresponding crosstalk is -18.8 dB (off-state)/-16.1 dB (on-state) at 1550 nm, respectively. Due to the adoption of polymer with high thermo-optic coefficient as the waveguide material, the measured switching power is 10.3 mW. The captured far-field output mode patterns prove the wavelength independence of proposedmode switch within the range from 1500 to 1630 nm. This broadband operation mode switch has potentials in wavelength-division-multiplexing & MDM complex systems, as well as cost-effective low-end switching applications.

Automated summary

An ultra-broadband 1x2 mode switch based on cascaded Mach-Zehnder interferometer and asymmetric Y-branch is proposed, showing stable performance in converting and switching between different modes, with potential applications in wavelength-division-multiplexing & MDM complex systems.