Single-particle evanescent light scattering simulations for total internal reflection microscopy | Zendy

Laurent Helden | Zendy; Elena Eremina | Zendy; Norbert Riefler | Zendy; Christopher Hertlein | Zendy; Clemens Bechinger | Zendy; Yuri Eremin | Zendy; Thomas Wriedt | Zendy

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Single-particle evanescent light scattering simulations for total internal reflection microscopy

Author(s) -

Laurent Helden,

Elena Eremina,

Norbert Riefler,

Christopher Hertlein,

Clemens Bechinger,

Yuri Eremin,

Thomas Wriedt

Publication year - 2006

Publication title -

applied optics

Language(s) - English

Resource type - Journals

ISSN - 0003-6935

DOI - 10.1364/ao.45.007299

Subject(s) - optics , light scattering , total internal reflection , scattering , microscopy , materials science , polarization (electrochemistry) , ray , multiangle light scattering , light intensity , penetration depth , light scattering by particles , particle (ecology) , mie scattering , physics , chemistry , oceanography , geology

We simulate and measure light scattering of a micrometer-sized spherical particle suspended in solution close to a glass substrate. The model, based on the discrete sources method, is developed to describe the experimental situation of total internal reflection microscopy experiments; i.e., the particle is illuminated by an evanescent light field originating from the glass-solvent interface. In contrast to the well-established assumption of a simple exponential decay of the scattering intensity with distance, we demonstrate significant deviations for a certain range of penetration depths and polarization states of the incident light.

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