Robust determination of the anisotropic polarizability of nanoparticles using coherent confocal microscopy

Brynmor J. Davis; P. Scott Carney

doi:10.1364/JOSAA.25.002102

Robust determination of the anisotropic polarizability of nanoparticles using coherent confocal microscopy

Brynmor J. Davis
, P. Scott Carney

Mechanical Engineering

University of Illinois at Urbana-Champaign

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

A coherent confocal microscope is proposed as a means to fully characterize the elastic scattering properties of a nanoparticle as a function of wavelength. Using a high numerical aperture lens, two-dimensional scanning, and a simple vector-beam shaper, the rank-2 polarizability tensor is estimated from a single confocal image. A method for computationally efficient data processing is described, and numerical simulations show that this algorithm is robust to noise and uncertainty in the focal plane position. The proposed method is a generalization of techniques that provide an estimate of a limited set of scattering parameters, such as a single orientation angle for rodlike particles. The measurement of the polarizability obviates the need for a priori assumptions about the nanoparticle.

Original language	English
Pages (from-to)	2102-2113
Number of pages	12
Journal	Journal of the Optical Society of America A: Optics and Image Science, and Vision
Volume	25
Issue number	8
DOIs	https://doi.org/10.1364/JOSAA.25.002102
State	Published - Aug 2008

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abstract = "A coherent confocal microscope is proposed as a means to fully characterize the elastic scattering properties of a nanoparticle as a function of wavelength. Using a high numerical aperture lens, two-dimensional scanning, and a simple vector-beam shaper, the rank-2 polarizability tensor is estimated from a single confocal image. A method for computationally efficient data processing is described, and numerical simulations show that this algorithm is robust to noise and uncertainty in the focal plane position. The proposed method is a generalization of techniques that provide an estimate of a limited set of scattering parameters, such as a single orientation angle for rodlike particles. The measurement of the polarizability obviates the need for a priori assumptions about the nanoparticle.",

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Robust determination of the anisotropic polarizability of nanoparticles using coherent confocal microscopy

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