Study of scattering from a sphere with an eccentrically located spherical inclusion by generalized Lorenz-Mie theory: internal and external field distributionWANG, J. J; GOUESBET, G; HAN, Y. P et al.Journal of the Optical Society of America. A, Optics, image science, and vision (Print). 2011, Vol 28, Num 1, pp 24-39, issn 1084-7529, 16 p.Article

Higher-order descriptions of Gaussian beamsGOUESBET, G.Journal of optics. 1996, Vol 27, Num 1, pp 35-50, issn 0150-536XArticle

Localized approximation of generalized Lorenz-Mie theory: faster algorithm for computations of beam shape coefficients, g_n^mREN, K. F; GREHAN, G; GOUESBET, G et al.Particle & particle systems characterization. 1992, Vol 9, Num 2, pp 144-150, issn 0934-0866Article

Generalized Lorenz-Mie theory: first exact values and comparisons with the localized approximationMAHEU, B; GREHAN, G; GOUESBET, G et al.Applied optics. 1987, Vol 26, Num 1, pp 23-25, issn 0003-6935Article

Light scattering from a sphere arbitrarily located in a Gaussian beam, using a Bromwich formulationGOUESBET, G; MAHEU, B; GREHAN, G et al.Journal of the Optical Society of America. A, Optics and image science. 1988, Vol 5, Num 9, pp 1427-1443, issn 0740-3232Article

Measurements of beam shape coefficients in generalized Lorenz-Mie theory and the density-matrix approach. Part 2: The density-matrix approachGOUESBET, G.Particle & particle systems characterization. 1997, Vol 14, Num 2, pp 88-92, issn 0934-0866Conference Paper

On the generalized Lorenz-Mie theory: first attempt to design a localized approximation to the computation of the coefficients g_n^mGOUESBET, G; GREHAN, G; MAHEU, B et al.Journal of optics. 1989, Vol 20, Num 1, pp 31-43, issn 0150-536XArticle

Maximal degree of polarization for visible light scattered by an aqueous dropletXIN CHENG; XIANGZHAOWANG.Optik (Stuttgart). 2010, Vol 121, Num 2, pp 138-141, issn 0030-4026, 4 p.Article

Transformations of spherical beam shape coefficients in generalized Lorenz-Mie theories through rotations of coordinate systems. IV. Plane wavesGOUESBET, G; WANG, J. J; HAN, Y. P et al.Optics communications. 2010, Vol 283, Num 17, pp 3244-3254, issn 0030-4018, 11 p.Article

Asymptotic quantum elastic generalized Lorenz-Mie theoryGOUESBET, G.Optics communications. 2006, Vol 266, Num 2, pp 704-709, issn 0030-4018, 6 p.Article

Theoretical model of the laser imaging of small aerosols : applications to aerosol sizingSCHAUB, S. A; ALEXANDER, D. R; BARTON, J. P et al.Applied optics. 1991, Vol 30, Num 33, pp 4777-4784, issn 0003-6935Article

Localized interpretation to compute all the coefficients g_n^m in the generalized Lorenz-Mie theoryGOUESBET, G; GREHAN, G; MAHEU, B et al.Journal of the Optical Society of America. A, Optics and image science. 1990, Vol 7, Num 6, pp 998-1007, issn 0740-3232Article

Computations of the g_n coefficients in the generalized Lorenz-Mie theory using three different methodsGOUESBET, G; GREHAN, G; MAHEU, B et al.Applied optics. 1988, Vol 27, Num 23, pp 4874-4883, issn 0003-6935Article

Electromagnetic scattering by an absorbing macroscopic sphere is cross-sectionally equivalent to a superposition of two effective quantum processesGOUESBET, G.Journal of optics. A, Pure and applied optics (Print). 2007, Vol 9, Num 4, pp 369-375, issn 1464-4258, 7 p.Article

A transparent macroscopic sphere is cross-sectionally equivalent to a superposition of two quantum-like radial potentialsGOUESBET, G.Optics communications. 2006, Vol 266, Num 2, pp 710-715, issn 0030-4018, 6 p.Article

Lorenz-Mie theory for spheres immersed in an absorbing host mediumQUINTEN, M; ROSTALSKI, J.Particle & particle systems characterization. 1996, Vol 13, Num 2, pp 89-96, issn 0934-0866Article

Light scattering signatures of individual spheres on optically smooth conducting surfacesWEBER, D. C; DAN HIRLEMAN, E.Applied optics. 1988, Vol 27, Num 19, pp 4019-4026, issn 0003-6935Article

Calculation of axial optical forces exerted on medium-sized particles by optical trapMAO, Fang-Lin; XING, Qi-Rong; KAI WANG et al.Optics and laser technology. 2007, Vol 39, Num 1, pp 34-39, issn 0030-3992, 6 p.Article

Simulation of LDA and PDA measuring techniques in the nanometer particle size rangeVAMOS, Lénard; JANI, Péter.Proceedings of SPIE, the International Society for Optical Engineering. 2005, pp 59481Q.1-59481Q.9, issn 0277-786X, isbn 0-8194-5955-0, 2VolConference Paper

Validity of the cylindrical localized approximation for arbitrary shaped beams in generalized Lorenz-Mie theory for circular cylindersGOUESBET, G.Journal of modern optics (Print). 1999, Vol 46, Num 8, pp 1185-1200, issn 0950-0340Article

Visible and infra-red sensitivity of Rayleigh limit and Penndorf extension to complex refractive index of sootAHMET SELAMET.International journal of heat and mass transfer. 1992, Vol 35, Num 12, pp 3479-3484, issn 0017-9310Article

Monochromatic absorption of luminous flamesAHMET SELAMET; ARPACI, V. S.Combustion science and technology. 1991, Vol 78, Num 4-6, pp 165-175, issn 0010-2202Article

Asymptotic quantum inelastic generalized Lorenz-Mie theoryGOUESBET, G.Optics communications. 2007, Vol 278, Num 1, pp 215-220, issn 0030-4018, 6 p.Article

Generalized Lorenz-Mie theory for non-spherical particles with applications to phase-Doppler anemometryDOICU, A; SCHABEL, S; EBERT, F et al.Particle & particle systems characterization. 1996, Vol 13, Num 2, pp 79-88, issn 0934-0866Article

Generalized optical theorem for on-axis Gaussian beamsGOUESBET, G; LETELLIER, C; GREHAN, G et al.Optics communications. 1996, Vol 125, Num 1-3, pp 137-157, issn 0030-4018Article