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Low coherence digital holography microscopy based on the Lorenz-Mie scattering model

Stijn Vandewiele (UGent) , Filip Strubbe (UGent) , Caspar Schreuer (UGent) , Kristiaan Neyts (UGent) and Filip Beunis (UGent)
(2017) OPTICS EXPRESS. 25(21). p.25853-25866
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Center for nano- and biophotonics (NB-Photonics)
Abstract
We demonstrate the use of low spatial and temporal coherence holography microscopy, based on the Lorenz-Mie model, using the standard tungsten-halogen lamp present in an inverted microscope. An optical model is put forward to incorporate the effect of spectral width and different incidence angles of the incident light determined by the aperture at the back focal plane of the condenser lens. The model is validated for 899 nm diameter polystyrene microspheres in glycerol, giving a resolution of 0.4% for the index of refraction and 2.2% for the diameter of the particles.

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Citation

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MLA
Vandewiele, Stijn et al. “Low Coherence Digital Holography Microscopy Based on the Lorenz-Mie Scattering Model.” OPTICS EXPRESS 25.21 (2017): 25853–25866. Print.
APA
Vandewiele, S., Strubbe, F., Schreuer, C., Neyts, K., & Beunis, F. (2017). Low coherence digital holography microscopy based on the Lorenz-Mie scattering model. OPTICS EXPRESS, 25(21), 25853–25866.
Chicago author-date
Vandewiele, Stijn, Filip Strubbe, Caspar Schreuer, Kristiaan Neyts, and Filip Beunis. 2017. “Low Coherence Digital Holography Microscopy Based on the Lorenz-Mie Scattering Model.” Optics Express 25 (21): 25853–25866.
Chicago author-date (all authors)
Vandewiele, Stijn, Filip Strubbe, Caspar Schreuer, Kristiaan Neyts, and Filip Beunis. 2017. “Low Coherence Digital Holography Microscopy Based on the Lorenz-Mie Scattering Model.” Optics Express 25 (21): 25853–25866.
Vancouver
1.
Vandewiele S, Strubbe F, Schreuer C, Neyts K, Beunis F. Low coherence digital holography microscopy based on the Lorenz-Mie scattering model. OPTICS EXPRESS. OPTICAL SOC AMER; 2017;25(21):25853–66.
IEEE
[1]
S. Vandewiele, F. Strubbe, C. Schreuer, K. Neyts, and F. Beunis, “Low coherence digital holography microscopy based on the Lorenz-Mie scattering model,” OPTICS EXPRESS, vol. 25, no. 21, pp. 25853–25866, 2017.
@article{8533824,
  abstract     = {We demonstrate the use of low spatial and temporal coherence holography microscopy, based on the Lorenz-Mie model, using the standard tungsten-halogen lamp present in an inverted microscope. An optical model is put forward to incorporate the effect of spectral width and different incidence angles of the incident light determined by the aperture at the back focal plane of the condenser lens. The model is validated for 899 nm diameter polystyrene microspheres in glycerol, giving a resolution of 0.4% for the index of refraction and 2.2% for the diameter of the particles.},
  author       = {Vandewiele, Stijn and Strubbe, Filip and Schreuer, Caspar and Neyts, Kristiaan and Beunis, Filip},
  issn         = {1094-4087},
  journal      = {OPTICS EXPRESS},
  language     = {eng},
  number       = {21},
  pages        = {25853--25866},
  publisher    = {OPTICAL SOC AMER},
  title        = {Low coherence digital holography microscopy based on the Lorenz-Mie scattering model},
  url          = {http://dx.doi.org/10.1364/oe.25.025853},
  volume       = {25},
  year         = {2017},
}

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