Another face of Lorenz-Mie scattering: monodisperse distributions of spheres produce Lissajous-like patterns

R.M.P. Doornbos; Alfons G. Hoekstra; Richard M.P. Doornbos; K.E.I. Deurloo; B.G. de Grooth; Herke Jan Noordmans; Peter M.A. Sloot

doi:10.1364/AO.33.000494

Another face of Lorenz-Mie scattering: monodisperse distributions of spheres produce Lissajous-like patterns

R.M.P. Doornbos, Alfons G. Hoekstra, Richard M.P. Doornbos, K.E.I. Deurloo, B.G. de Grooth, Herke Jan Noordmans, Peter M.A. Sloot

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Abstract

The complete scattering matrix S of spheres was measured with a flow cytometer. The experimental equipment allows simultaneous detection of two scattering-matrix elements for every sphere in the distribution. Two-parameter scatterplots withx andy coordinates determined by the Sll + Sij and S11 - Sij values are measured. Samples of spheres with very narrow size distributions (< 1%) were analyzed with a FlowCytometer, and they produced unexpected two-parameter scatterplots. Instead of compact distributions we observed Lissajous-like loops. Simulation of the scatterplots, using Lorenz-Mie theory, shows that these loops are due not to experimental errors but to true Lorenz-Mie scattering. It is shown that the loops originate from the sensitivity of the scattered field on the radius of the spheres. This paper demonstrates that the interpretation of rare events and hidden features in flow cytometry needs reconsideration.

Original language	Undefined
Pages (from-to)	494-500
Number of pages	7
Journal	Applied Optics
Volume	33
Issue number	3
DOIs	https://doi.org/10.1364/AO.33.000494
Publication status	Published - 1994

Keywords

Polarized-light scattering
two-parameter scatterplot
side scattering
METIS-128415
Flow cytometry
IR-71908
Mueller matrix

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10.1364/AO.33.000494

Hoekstra94another

Cite this

@article{2742fce9c8a5438992de08fd4a33ae74,

title = "Another face of Lorenz-Mie scattering: monodisperse distributions of spheres produce Lissajous-like patterns",

abstract = "The complete scattering matrix S of spheres was measured with a flow cytometer. The experimental equipment allows simultaneous detection of two scattering-matrix elements for every sphere in the distribution. Two-parameter scatterplots withx andy coordinates determined by the Sll + Sij and S11 - Sij values are measured. Samples of spheres with very narrow size distributions (< 1%) were analyzed with a FlowCytometer, and they produced unexpected two-parameter scatterplots. Instead of compact distributions we observed Lissajous-like loops. Simulation of the scatterplots, using Lorenz-Mie theory, shows that these loops are due not to experimental errors but to true Lorenz-Mie scattering. It is shown that the loops originate from the sensitivity of the scattered field on the radius of the spheres. This paper demonstrates that the interpretation of rare events and hidden features in flow cytometry needs reconsideration.",

keywords = "Polarized-light scattering, two-parameter scatterplot, side scattering, METIS-128415, Flow cytometry, IR-71908, Mueller matrix",

author = "R.M.P. Doornbos and Hoekstra, {Alfons G.} and Doornbos, {Richard M.P.} and K.E.I. Deurloo and {de Grooth}, B.G. and Noordmans, {Herke Jan} and Sloot, {Peter M.A.}",

year = "1994",

doi = "10.1364/AO.33.000494",

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T1 - Another face of Lorenz-Mie scattering: monodisperse distributions of spheres produce Lissajous-like patterns

AU - Doornbos, R.M.P.

AU - Hoekstra, Alfons G.

AU - Doornbos, Richard M.P.

AU - Deurloo, K.E.I.

AU - de Grooth, B.G.

AU - Noordmans, Herke Jan

AU - Sloot, Peter M.A.

PY - 1994

Y1 - 1994

N2 - The complete scattering matrix S of spheres was measured with a flow cytometer. The experimental equipment allows simultaneous detection of two scattering-matrix elements for every sphere in the distribution. Two-parameter scatterplots withx andy coordinates determined by the Sll + Sij and S11 - Sij values are measured. Samples of spheres with very narrow size distributions (< 1%) were analyzed with a FlowCytometer, and they produced unexpected two-parameter scatterplots. Instead of compact distributions we observed Lissajous-like loops. Simulation of the scatterplots, using Lorenz-Mie theory, shows that these loops are due not to experimental errors but to true Lorenz-Mie scattering. It is shown that the loops originate from the sensitivity of the scattered field on the radius of the spheres. This paper demonstrates that the interpretation of rare events and hidden features in flow cytometry needs reconsideration.

AB - The complete scattering matrix S of spheres was measured with a flow cytometer. The experimental equipment allows simultaneous detection of two scattering-matrix elements for every sphere in the distribution. Two-parameter scatterplots withx andy coordinates determined by the Sll + Sij and S11 - Sij values are measured. Samples of spheres with very narrow size distributions (< 1%) were analyzed with a FlowCytometer, and they produced unexpected two-parameter scatterplots. Instead of compact distributions we observed Lissajous-like loops. Simulation of the scatterplots, using Lorenz-Mie theory, shows that these loops are due not to experimental errors but to true Lorenz-Mie scattering. It is shown that the loops originate from the sensitivity of the scattered field on the radius of the spheres. This paper demonstrates that the interpretation of rare events and hidden features in flow cytometry needs reconsideration.

KW - Polarized-light scattering

KW - two-parameter scatterplot

KW - side scattering

KW - METIS-128415

KW - Flow cytometry

KW - IR-71908

KW - Mueller matrix

U2 - 10.1364/AO.33.000494

DO - 10.1364/AO.33.000494

M3 - Article

SN - 0003-6935

VL - 33

SP - 494

EP - 500

JO - Applied Optics

JF - Applied Optics

IS - 3

ER -