Title :
Design and Simulation of Fabrication-Error-Tolerant Triplexer Based on Cascaded Mach–Zehnder Inteferometers
Author :
Lee, Taehyung ; Lee, Donghyun ; Chung, Youngchul
Author_Institution :
Kwangwoon Univ., Seoul
Abstract :
A planar lightwave circuit triplexer with good fabrication-error-tolerance is proposed and its characteristics are analyzed through simulations. To separate 1310 nm and 1480-to 1560-nm channels properly, the path length difference of two-stage Mach-Zehnder interferometers (MZIs) is set to be a multiple and half of the upstream wavelength (1310 nm) and the balance of the employed 3-dB directional couplers is optimized in 1480-to 1560-nm band. Two downstream channels (1490-and 1550-nm channels) are further separated using additional two-stage MZIs. A three-dimensional beam propagation method and transfer matrix method analysis predicts that the channel crosstalk at 1310-nm port would be less than -35 dB from 1290 to 1330 nm. The crosstalk could be less than -22 dB at two downstream channels and less than -55 dB at the upstream channel when the waveguide width error is as much as 0.2 mum.
Keywords :
Mach-Zehnder interferometers; multiplexing equipment; optical design techniques; optical directional couplers; optical planar waveguides; cascaded Mach-Zehnder inteferometers; channel crosstalk; design; directional couplers; fabrication-error-tolerant triplexer; planar lightwave circuit triplexer; size 1310 nm; size 1480 nm to 1560 nm; three-dimensional beam propagation method; transfer matrix method; Arrayed waveguide gratings; Assembly; Circuit simulation; Filters; Mach-Zehnder interferometers; Optical fibers; Optical waveguides; Planar waveguides; Programmable control; Wavelength division multiplexing; Mach–Zehnder interferometer (MZI); optical filter; planar lightwave circuit (PLC); planar waveguides; triplexer;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2007.910758
