Integrated optofluidic system for monitoring particle mass concentrations based on planar emitter-receiver units

We demonstrate an integrated optofluidic system for monitoring the particle mass concentration and the Sauter mean diameter of polydisperse flowing suspensions of water and standardized test dust. For optimum integration, a planar emitter-receiver unit is developed and fabricated on Si technology. A...

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Veröffentlicht in:	Applied optics (2004) 2012-11, Vol.51 (32), p.7800-7809
Hauptverfasser:	Hofmann, Meike, Müller, Ralf, Stoebenau, Sebastian, Stauden, Thomas, Brodersen, Olaf, Sinzinger, Stefan
Format:	Artikel
Sprache:	eng
Schlagworte:	Attenuation Dust Emittance Monitoring Optimization Particle mass Sauter mean diameter
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container_title	Applied optics (2004)
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creator	Hofmann, Meike Müller, Ralf Stoebenau, Sebastian Stauden, Thomas Brodersen, Olaf Sinzinger, Stefan
description	We demonstrate an integrated optofluidic system for monitoring the particle mass concentration and the Sauter mean diameter of polydisperse flowing suspensions of water and standardized test dust. For optimum integration, a planar emitter-receiver unit is developed and fabricated on Si technology. A vertical cavity surface emitting laser at 850 nm serves as light source, and monolithically integrated segmented photodiodes detect both the attenuation of the primary light beam and the scattered light. The optical system is integrated into a planar transparent polymethylmethacrylate substrate by micromilling of an optical freeform surface and electron beam evaporation of reflective layers following the concept of planar integrated free-space optical systems. We are able to detect 1 mg/L of the standards ISO 12103-A2 (fine test dust), -A3 (medium test dust), and -A4 (coarse test dust) and to determine the Sauter mean diameter of the particle size distribution.
doi_str_mv	10.1364/AO.51.007800
format	Article
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subjects	Attenuation Dust Emittance Monitoring Optimization Particle mass Sauter mean diameter
title	Integrated optofluidic system for monitoring particle mass concentrations based on planar emitter-receiver units
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