Title :
Development of integrated optical characterization bench for sensing microfluidic channel
Author :
Viphavakit, C. ; Dutta, J. ; Atthi, N. ; Boonruang, S. ; Mohammed, Waleed S.
Author_Institution :
Center of Excellent in Nanotechnol. (COEN), Asian Inst. of Technol. (AIT), Klong Luang, Thailand
Abstract :
This work introduces design, fabrication and characterization of an optical based integrated flow rate sensor where the light- fluid interaction is maximized by allowing the liquid and light to propagate along the same direction. This is achieved by placing a 10 μm deep channel between two waveguides. The optical waveguides are tapered down to the channel width to feed the light in and out, where tapering is done to minimize the coupling and propagation loss. The output signal is detected by a fast receiver (higher than 1MHz) that records the dynamic change of the light intensity when fluid flows through the channel. The initial results showed a dynamic range of measurement up to 0.18.
Keywords :
flow sensors; integrated optics; light propagation; micro-optics; microchannel flow; microfabrication; micromechanical devices; optical receivers; optical sensors; optical waveguides; coupling loss; deep channel; dynamic change; fast receiver; fluid flows; frequency 1 MHz; integrated optical characterization development; light intensity; light propagation; light- fluid interaction; microfluidic characterization; microfluidic design; microfluidic fabrication; optical based integrated flow rate sensor; optical waveguides; output signal; propagation loss; sensing microfluidic channel; size 10 mum; Computer vision; Image motion analysis; Microchannel; Microfluidics; Optical device fabrication; Optical sensors; Optical waveguides; Integrated optics; flow sensing; microfluidic; microfluidic devices; optical sensor;
Conference_Titel :
Electron Devices and Solid State Circuit (EDSSC), 2012 IEEE International Conference on
Conference_Location :
Bangkok
Print_ISBN :
978-1-4673-5694-7
DOI :
10.1109/EDSSC.2012.6482764
