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N A Halliwell

Showing results (1-10 of 13) with videos related to

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Applied Optics|September 1, 1984
Laser speckle photography and particle image velocimetry: photographic film noiseC J Pickering, N A Halliwell
Applied Optics|June 10, 2010
Particle image velocimetry: rapid transparency analysis using optical correlationJ M Coupland, N A Halliwell
Applied Optics|August 15, 1985
Particle image velocimetry: fringe visibility and pedestal removalC J Pickering, N A Halliwell
Applied Optics|August 20, 2010
Particle image velocimetry: three-dimensional fluid velocity measurements using holographic recording and optical correlationJ M Coupland, N A Halliwell
Applied Optics|April 15, 1984
Speckle photography in fluid flows: signal recovery with two-step processingC J Pickering, N A Halliwell
The Review of Scientific Instruments|August 1, 1978
Multicomponent frequency shifting self-aligning laser velocimetersJ E Rizzo, N A Halliwell
Applied Optics|April 10, 1997
High-speed pattern-recognition systems using parallel-access optical disksC Davison, N A Halliwell, J M Coupland
Applied Optics|May 11, 2010
Particle image velocimetry: theory of directional ambiguity removal using holographic image separationJ M Coupland, C J Pickering, N A Halliwell
Applied Optics|February 28, 2008
Spatially integrated speckle intensity: maximum resistance to decorrelation caused by in-plane target displacementI D Tullis, N A Halliwell, S J Rothberg
Applied Optics|October 12, 2010
Particle image velocimetry: image labeling by use of adaptive optics to modify the point-spread functionN J Lawson, N A Halliwell, J M Coupland
Pageof 2

Showing results (1-10 of 13) with videos related to

Sort By:
Pageof 2
Applied Optics|September 1, 1984
Laser speckle photography and particle image velocimetry: photographic film noiseC J Pickering, N A Halliwell
Applied Optics|June 10, 2010
Particle image velocimetry: rapid transparency analysis using optical correlationJ M Coupland, N A Halliwell
Applied Optics|August 15, 1985
Particle image velocimetry: fringe visibility and pedestal removalC J Pickering, N A Halliwell
Applied Optics|August 20, 2010
Particle image velocimetry: three-dimensional fluid velocity measurements using holographic recording and optical correlationJ M Coupland, N A Halliwell
Applied Optics|April 15, 1984
Speckle photography in fluid flows: signal recovery with two-step processingC J Pickering, N A Halliwell
The Review of Scientific Instruments|August 1, 1978
Multicomponent frequency shifting self-aligning laser velocimetersJ E Rizzo, N A Halliwell
Applied Optics|April 10, 1997
High-speed pattern-recognition systems using parallel-access optical disksC Davison, N A Halliwell, J M Coupland
Applied Optics|May 11, 2010
Particle image velocimetry: theory of directional ambiguity removal using holographic image separationJ M Coupland, C J Pickering, N A Halliwell
Applied Optics|February 28, 2008
Spatially integrated speckle intensity: maximum resistance to decorrelation caused by in-plane target displacementI D Tullis, N A Halliwell, S J Rothberg
Applied Optics|October 12, 2010
Particle image velocimetry: image labeling by use of adaptive optics to modify the point-spread functionN J Lawson, N A Halliwell, J M Coupland
Pageof 2