Wormald Coupland On measuring 3D flow within inkjet droplet streams.doc (749.5 kB)

On measuring 3D flow within inkjet droplet streams using a digital holographic microscope

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journal contribution
posted on 10.10.2013, 10:28 by S. Andrew Wormald, Jeremy Coupland
With a view to measuring the internal and external flow fields in an inkjet droplet stream, this paper discusses the problem of imaging through droplet surfaces and more generally interfaces in two-phase flows. First the propagation of optical fields through interfaces between media of different refractive index is discussed with reference to scalar diffraction theory. Some approximations suitable for droplet imaging are then discussed and the use of a-priori information is then explained. The imaging technique is applied to holograms recorded using a digital holographic microscope and is illustrated in the synthesis of a 3D image that is reconstructed through a cylindrical telecommunication fibre. Subsequently we demonstrate for the first time, high resolution imaging throughout an inkjet droplet. The practical implementation and improvement of these imaging methods for the measurement of two-phase flows is then discussed.

History

School

  • Mechanical, Electrical and Manufacturing Engineering

Citation

WORMALD, S.A. and COUPLAND, J.M., 2010. On measuring 3D flow within inkjet droplet streams using a digital holographic microscope. Journal of Modern Optics, 57 (9), pp.700-708.

Publisher

© Taylor and Francis

Version

AM (Accepted Manuscript)

Publication date

2010

Notes

This article was accepted for publication in the Journal of Modern Optics and the definitive version is available at: http://dx.doi.org/10.1080/09500340903580781

ISSN

0950-0340

Language

en

Exports