Follow
gerard grehan
gerard grehan
Directeur de recherche at CNRS, UMR 6614/LABEX EMC3
Verified email at coria.fr
Title
Cited by
Cited by
Year
Light scattering from a sphere arbitrarily located in a Gaussian beam, using a Bromwich formulation
G Gouesbet, B Maheu, G Gréhan
JOSA A 5 (9), 1427-1443, 1988
7581988
Generalized lorenz-mie theories
G Gouesbet, G Gréhan
Springer, 2011
4662011
Localized interpretation to compute all the coefficients gnm in the generalized Lorenz–Mie theory
G Gouesbet, G Grehan, B Maheu
JOSA A 7 (6), 998-1007, 1990
2121990
Prediction of reverse radiation pressure by generalized Lorenz–Mie theory
KF Ren, G Gréhan, G Gouesbet
Applied optics 35 (15), 2702-2710, 1996
1991996
Improved algorithm for electromagnetic scattering of plane waves and shaped beams by multilayered spheres
ZS Wu, LX Guo, KF Ren, G Gouesbet, G Grehan
Applied optics 36 (21), 5188-5198, 1997
1851997
Electromagnetic scattering from a multilayered sphere located in an arbitrary beam
F Onofri, G Gréhan, G Gouesbet
Applied optics 34 (30), 7113-7124, 1995
1841995
A concise presentation of the generalized Lorenz-Mie theory for arbitrary location of the scatterer in an arbitrary incident profile
B Maheu, G Gouesbet, G Gréhan
Journal of optics 19 (2), 59, 1988
1811988
Generalized Lorenz–Mie theories and description of electromagnetic arbitrary shaped beams: localized approximations and localized beam models, a review
G Gouesbet, JA Lock, G Gréhan
Journal of Quantitative Spectroscopy and Radiative Transfer 112 (1), 1-27, 2011
1592011
Computations of the gn coefficients in the generalized Lorenz-Mie theory using three different methods
G Gouesbet, G Grehan, B Maheu
Applied optics 27 (23), 4874-4883, 1988
1591988
Scattering of laser beams by Mie scatter centers: numerical results using a localized approximation
G Grehan, B Maheu, G Gouesbet
Applied Optics 25 (19), 3539-3548, 1986
1581986
Integral localized approximation in generalized Lorenz–Mie theory
KF Ren, G Gouesbet, G Gréhan
Applied optics 37 (19), 4218-4225, 1998
1541998
Scattering of a Gaussian beam by a Mie scatter center using a Bromwich formalism
G Gouesbet, G Gréhan, B Maheu
Journal of optics 16 (2), 83, 1985
1511985
Comparisons between geometrical optics and Lorenz-Mie theory
A Ungut, G Grehan, G Gouesbet
Applied Optics 20 (17), 2911-2918, 1981
1481981
Generalized Lorenz-Mie theories, from past to future
G Gouesbet, G Grehan
Atomization and sprays 10 (3-5), 2000
1262000
Partial-wave representations of laser beams for use in light-scattering calculations
G Gouesbet, JA Lock, G Gréhan
Applied optics 34 (12), 2133-2143, 1995
1191995
Scattering of a Gaussian beam by an infinite cylinder in the framework of generalized Lorenz–Mie theory: formulation and numerical results
KF Ren, G Gréhan, G Gouesbet
JOSA A 14 (11), 3014-3025, 1997
1131997
Generalized Lorenz-Mie theory for assemblies of spheres and aggregates
G Gouesbet, G Gréhan
Journal of Optics A: Pure and Applied Optics 1 (6), 706, 1999
1121999
Mie theory calculations: new progress, with emphasis on particle sizing
G Grehan, G Gouesbet
Applied optics 18 (20), 3489-3493, 1979
1061979
Discussion of two quadrature methods of evaluating beam-shape coefficients in generalized Lorenz–Mie theory
G Gouesbet, C Letellier, KF Ren, G Gréhan
Applied optics 35 (9), 1537-1542, 1996
1041996
Expressions to compute the coefficients gmn in the generalized Lorenz-Mie theory using finite series
G Gouesbet, G Gréhan, B Maheu
Journal of optics 19 (1), 35, 1988
1021988
The system can't perform the operation now. Try again later.
Articles 1–20