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Issue 18, 2011
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A tunable 3D optofluidic waveguide dye laser via two centrifugal Dean flow streams

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Abstract

This paper presents a tunable optofluidic waveguide dye laser utilizing two centrifugal Dean flows. The centrifugal Dean flow increases the light confinement of the dye laser by shaping a three-dimensional (3D) liquid waveguide from curved microchannels. The active medium with the laser dye is dissolved in the liquid core and pumped with an external pump laser to produce stimulated emission. The laser's Fabry–Pérot microcavity is formed with a pair of aligned gold-coated fiber facets to amplify the fluorescent emission. The advantage of the 3D optofluidic waveguide dye laser is its higher efficiency, thus to obtain lasing at a reduced threshold (60%) with higher output energy. The demonstrated slope efficiency is at least 3-fold higher than its traditional two-dimensional equivalent. In addition, the laser output energy can be varied on demand by tuning the flow rates of the two flows. This technique provides a versatile platform for high potential applications microfluidic biosensor and bioanalysis.

Graphical abstract: A tunable 3D optofluidic waveguide dye laser via two centrifugal Dean flow streams

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Supplementary files

Article information


Submitted
20 May 2011
Accepted
13 Jul 2011
First published
09 Aug 2011

Lab Chip, 2011,11, 3182-3187
Article type
Paper

A tunable 3D optofluidic waveguide dye laser via two centrifugal Dean flow streams

Y. Yang, A. Q. Liu, L. Lei, L. K. Chin, C. D. Ohl, Q. J. Wang and H. S. Yoon, Lab Chip, 2011, 11, 3182
DOI: 10.1039/C1LC20435A

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