Comparative study of polarized light propagation in biologic tissues. Academic Article

abstract

• We report the depolarization of light scattered by a variety of birefringent and nonbirefringent tissues. We used Stokes polarimetry to investigate how scatterer structures in each tissue contribute to the depolarization of linearly versus circularly polarized light propagating through that tissue. Experiments were performed on porcine blood, fat, tendon, artery, and myocardium. The results indicate that the two incident polarization states are depolarized differently depending on the structure of the sample. As seen in sphere suspensions, for tissues containing dilute Mie scatterers, circularly polarized light is maintained preferentially over linearly polarized light. For more dense tissues, however, the reverse is true. The results illustrate situations where polarized light will provide an improvement over unpolarized light imaging, information that is crucial to optimizing existing polarimetric imaging techniques.

authors

• Maitland, Duncan

published proceedings

• J Biomed Opt

altmetric score

• 3

author list (cited authors)

• Sankaran, V., Walsh, J. T., & Maitland, D. J.

citation count

• 142

complete list of authors

• Sankaran, Vanitha||Walsh, Joseph T||Maitland, Duncan J

publication date

• January 2002

publisher

• SPIE, the international society for optics and photonics  Publisher

published in

• Journal of Biomedical Optics  Journal

keywords

• Animals
• Biophysical Phenomena
• Biophysics
• Birefringence
• In Vitro Techniques
• Models, Biological
• Optics And Photonics
• Scattering, Radiation
• Sus Scrofa

Digital Object Identifier (DOI)

• 10.1117/1.1483318

start page

• 300

end page

• 306

volume

• 7

issue

• 3

URL

• http://dx.doi.org/10.1117/1.1483318