Improved arrayed-waveguide-grating layout avoiding systematic phase errors | Zendy

N. Ismail | Zendy; Fei Sun | Zendy; G. Sengo | Zendy; Kerstin Wörhoff | Zendy; A. Driessen | Zendy; R.M. de Ridder | Zendy; Markus Pollnau | Zendy

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Improved arrayed-waveguide-grating layout avoiding systematic phase errors

Author(s) -

N. Ismail,

Fei Sun,

G. Sengo,

Kerstin Wörhoff,

A. Driessen,

R.M. de Ridder,

Markus Pollnau

Publication year - 2011

Publication title -

optics express

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.394

H-Index - 271

ISSN - 1094-4087

DOI - 10.1364/oe.19.008781

Subject(s) - arrayed waveguide grating , optics , grating , materials science , wafer , diffraction grating , wavelength , free spectral range , waveguide , polarization (electrochemistry) , diffraction , phase (matter) , optoelectronics , wavelength division multiplexing , physics , quantum mechanics , chemistry

We present a detailed description of an improved arrayed-waveguide-grating (AWG) layout for both, low and high diffraction orders. The novel layout presents identical bends across the entire array; in this way systematic phase errors arising from different bends that are inherent to conventional AWG designs are completely eliminated. In addition, for high-order AWGs our design results in more than 50% reduction of the occupied area on the wafer. We present an experimental characterization of a low-order device fabricated according to this geometry. The device has a resolution of 5.5 nm, low intrinsic losses (< 2 dB) in the wavelength region of interest for the application, and is polarization insensitive over a wide spectral range of 215 nm.

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