Slow light in a semiconductor waveguide at gigahertz frequencies | Zendy

Jesper Mørk | Zendy; Rasmus Kjær | Zendy; Mike van der Poel | Zendy; Kresten Yvind | Zendy

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Slow light in a semiconductor waveguide at gigahertz frequencies

Author(s) -

Jesper Mørk,

Rasmus Kjær,

Mike van der Poel,

Kresten Yvind

Publication year - 2005

Publication title -

optics express

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.394

H-Index - 271

ISSN - 1094-4087

DOI - 10.1364/opex.13.008136

Subject(s) - slow light , optics , waveguide , semiconductor , physics , slowdown , biasing , population , voltage , optoelectronics , demography , photonic crystal , quantum mechanics , sociology , political science , law

We experimentally demonstrate slow-down of light by a factor of three in a 100 microm long semiconductor waveguide at room temperature and at a record-high frequency of 16.7 GHz. It is shown that the group velocity can be controlled all-optically as well as through an applied bias voltage. A semi-analytical model based on the effect of coherent population oscillations and taking into account propagation effects is derived and is shown to well account for the experimental results. It is shown that the carrier lifetime limits the maximum achievable delay. Based on the general model we analyze fundamental limitations in the application of light slowdown due to coherent population oscillations.

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