Modeling advances for measuring spheroidal geometries using angle-resolved low coherence interferometry
Publication
, Journal Article
Amoozegar, C; Giacomelli, MG; Chalut, KJ; Wax, A
Published in: Biomedical Optics Biomed 2008
January 1, 2008
The relative efficacy of a modified Mie theory model and a T-matrix method model in determining the geometry of spheroidal scatterers is determined through comparison of scattering distributions of optical phantoms to these two models. © 2007 Optical Society of America.
Duke Scholars
Published In
Biomedical Optics Biomed 2008
DOI
Publication Date
January 1, 2008
Start / End Page
BTuF7
Citation
APA
Chicago
ICMJE
MLA
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Amoozegar, C., Giacomelli, M. G., Chalut, K. J., & Wax, A. (2008). Modeling advances for measuring spheroidal geometries using angle-resolved low coherence interferometry. Biomedical Optics Biomed 2008, BTuF7. https://doi.org/10.1364/biomed.2008.btuf7
Amoozegar, C., M. G. Giacomelli, K. J. Chalut, and A. Wax. “Modeling advances for measuring spheroidal geometries using angle-resolved low coherence interferometry.” Biomedical Optics Biomed 2008, January 1, 2008, BTuF7. https://doi.org/10.1364/biomed.2008.btuf7.
Amoozegar C, Giacomelli MG, Chalut KJ, Wax A. Modeling advances for measuring spheroidal geometries using angle-resolved low coherence interferometry. Biomedical Optics Biomed 2008. 2008 Jan 1;BTuF7.
Amoozegar, C., et al. “Modeling advances for measuring spheroidal geometries using angle-resolved low coherence interferometry.” Biomedical Optics Biomed 2008, Jan. 2008, p. BTuF7. Scopus, doi:10.1364/biomed.2008.btuf7.
Amoozegar C, Giacomelli MG, Chalut KJ, Wax A. Modeling advances for measuring spheroidal geometries using angle-resolved low coherence interferometry. Biomedical Optics Biomed 2008. 2008 Jan 1;BTuF7.
Published In
Biomedical Optics Biomed 2008
DOI
Publication Date
January 1, 2008
Start / End Page
BTuF7