Denis Lebrun
Denis Lebrun
Professeur, Université de Rouen
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Cited by
Cited by
Application of wavelet transform to hologram analysis: three-dimensional location of particles
C Buraga-Lefebvre, S Coëtmellec, D Lebrun, C Özkul
Optics and Lasers in Engineering 33 (6), 409-421, 2000
Digital in-line holography: influence of the shadow density on particle field extraction
M Malek, D Allano, S Coëtmellec, D Lebrun
Optics Express 12 (10), 2270-2279, 2004
Particle field characterization by digital in-line holography: 3D location and sizing
SL Pu, D Allano, B Patte-Rouland, M Malek, D Lebrun, KF Cen
Experiments in fluids 39 (1), 1-9, 2005
Application of in-line digital holography to multiple plane velocimetry
S Coëtmellec, C Buraga-Lefebvre, D Lebrun, C Özkul
Measurement Science and Technology 12, 1392, 2001
Application of the two-dimensional fractional-order Fourier transformation to particle field digital holography
S Coëtmellec, D Lebrun, C Özkul
JOSA A 19 (8), 1537-1546, 2002
Particle field digital holographic reconstruction in arbitrary tilted planes
D Lebrun, AM Benkouider, S Coëtmellec, M Malek
Optics Express 11 (3), 224-229, 2003
Digital in-line holography for three-dimensional–two-components particle tracking velocimetry
M Malek, D Allano, S Coëtmellec, C Özkul, D Lebrun
Measurement Science and Technology 15, 699, 2004
Characterization of diffraction patterns directly from in-line holograms with the fractional Fourier transform
S Coëtmellec, D Lebrun, C Özkul
Applied optics 41 (2), 312-319, 2002
Size measurement of bubbles in a cavitation tunnel by digital in-line holography
D Lebrun, D Allano, L Méčs, F Walle, F Corbin, R Boucheron, D Fréchou
Applied optics 50 (34), H1-H9, 2011
Application of multiple exposure digital in-line holography to particle tracking in a Bénard–von Kármán vortex flow
N Salah, G Godard, D Lebrun, P Paranthoën, D Allano, S Coëtmellec
Measurement Science and Technology 19, 074001, 2008
Formulation of in-line holography process by a linear shift invariant system: application to the measurement of fiber diameter
M Malek, S Coėtmellec, D Allano, D Lebrun
Optics communications 223 (4-6), 263-271, 2003
Enhancement of wire diameter measurements: comparison between Fraunhofer diffraction and Lorenz-Mie theory
D Lebrun, S Belaid, C Özkul, KF Ren, G Grehan
Optical Engineering 35, 946, 1996
Hologram reconstruction by use of optical wavelet transform
D Lebrun, S Belaďd, C Özkul
Applied optics 38 (17), 3730-3734, 1999
Holography and micro-holography of particle fields: a numerical standard
X Wu, S Meunier-Guttin-Cluzel, Y Wu, S Saengkaew, D Lebrun, M Brunel, ...
Optics communications 285 (13-14), 3013-3020, 2012
Digital in-line holography in thick optical systems: application to visualization in pipes
N Verrier, S Coëtmellec, M Brunel, D Lebrun
Applied optics 47 (22), 4147-4157, 2008
Micropipe flow visualization using digital in-line holographic microscopy
N Verrier, C Remacha, M Brunel, D Lebrun, S Coëtmellec
Optics express 18 (8), 7807-7819, 2010
Application of the fractional Fourier transformation to digital holography recorded by an elliptical, astigmatic Gaussian beam
F Nicolas, S Coëtmellec, M Brunel, D Allano, D Lebrun, A Janssen
JOSA A 22 (11), 2569-2577, 2005
On the measurements of particles by imaging methods: theoretical and experimental aspects
KF Ren, G Gouesbet, G Géhan, D Lebrun, C Özkul, A Kleitz
Particle & particle systems characterization 13 (2), 156-164, 1996
Application of two-dimensional wavelet transform to hologram analysis: visualization of glass fibers in a turbulent flame
S Belaid, D Lebrun, C Özkul
Optical engineering 36, 1947, 1997
Digital in-line holography with a sub-picosecond laser beam
F Nicolas, S Coëtmellec, M Brunel, D Lebrun
Optics communications 268 (1), 27-33, 2006
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