Metre-per-second microfluidic flow velocimetry with dual beam optical coherence tomography
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Rigas, Evangelos
Hallam, Jonathan M.
Charrett, Thomas O. H.
Ford, H. D.
Tatam, Ralph P.
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1094-4087
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Rigas E, Hallam JM, Charrett TOH, et al., (2019) Metre-per-second microfluidic flow velocimetry with dual beam optical coherence tomography. Optics Express, Volume 27, Issue 17, 2019, pp. 23849-23863
Abstract
A novel dual beam Optical Coherence Tomography (OCT) instrument has been developed for high velocity flow measurement, principally in microfluidics applications. The scanned dual beam approach creates a pair of image-frames separated by a small spatiotemporal offset. Metre-per-second flow measurement is achieved by rapid re-imaging by the second beam allowing for particle tracking between each image-frame of the pair. Flow at 1.06 m/s using a single optical access port has been measured, more than two orders of magnitude larger than previously reported OCT systems, at centimetre depth and with millimetre scale depth of field within a microfluidic chip, whilst simultaneously imaging the microfluidic channel structure.
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Attribution 4.0 International