Ring Resonator Arrays for Pulse Repetition Rate Multiplication and Shaping

Author

Xia, Bing ; Chen, Lawrence R.

Author_Institution

Dept. of Electr. & Comput. Eng., Photonic Syst. Group, Montreal, Que.

Volume

18

Issue

19

fYear

2006

Firstpage

1999

Lastpage

2001

Abstract

Using numerical simulations, we demonstrate the use of ring resonator arrays (RRAs) for pulse repetition rate multiplication (PRRM) and arbitrary envelope shaping to generate a pair of output pulse trains with arbitrary binary code profiles simultaneously from a single input pulse train. We investigate three configurations of RRAs: MtimesN, 1timesN, and Mtimes1. All can perform PRRM and generate two pulse trains with the required binary code profiles simultaneously; however, the two-dimensional (MtimesN) configuration suffers less waveguide loss. We also show that a nonlinear optical loop mirror can be used to remove the pulse-to-pulse phase variations in the output pulse trains

Keywords

binary codes; cavity resonators; mirrors; nonlinear optics; optical arrays; optical information processing; optical losses; optical pulse generation; optical pulse shaping; optical resonators; optical waveguides; arbitrary envelope shaping; binary code profiles; nonlinear optical loop mirror; optical signal processing; output pulse trains; pulse repetition rate multiplication; pulse shaping; pulse-to-pulse phase variations; ring resonator array; single input pulse train; two-dimensional configurations; waveguide loss; Binary codes; Numerical simulation; Optical losses; Optical pulse generation; Optical pulse shaping; Optical pulses; Optical ring resonators; Optical waveguides; Pulse generation; Pulse shaping methods; Optical pulse shaping; optical signal processing; pulse generation; ring resonators;

fLanguage

English

Journal_Title

Photonics Technology Letters, IEEE

Publisher

ieee

ISSN

1041-1135

Type

jour

DOI

10.1109/LPT.2006.882285

Filename

1695971