Abstract
A major challenge in use of the optical spectrum for communication and imaging applications is the scattering of light as it passes through diffuse media. Recent studies indicate that light beams with orbital angular momentum (OAM) can penetrate deeper through diffuse media than simple Gaussian beams. To the best knowledge of the authors, in this paper we describe for the first time an experiment examining transmission of OAM beams through biological tissue with thickness of up to a few centimeters, and for OAM modes reaching up to 20. Our results indicate that OAM beams do indeed show a higher transmittance relative to Gaussian beams, and that the greater the OAM, the higher the transmittance also up to 20, Our results extend measured results to highly multi scattering media and indicate that at 2.6 cm tissue thickness for OAM of order 20, we measure nearly 30% more power in comparison to a Gaussian beam. In addition, we develop a mathematical model describing the improved permeability. This work shows that OAM beams can be a valuable contribution to optical wireless communication (OWC) for medical implants, optical biological imaging, as well as recent innovative applications of medical diagnosis.
Highlights
A major challenge in use of the optical spectrum for communication and imaging applications is the scattering of light as it passes through diffuse media
We examined the relation between the order of Laguerre Gauss (LG) beams and the permeability of a collimated beam through biological tissue
The results show that increasing the order of the LG beam improves the T value
Summary
A major challenge in use of the optical spectrum for communication and imaging applications is the scattering of light as it passes through diffuse media. New methods for creating OAM beams have been explored and their propagation through diffuse media has been studied. A relatively new field where study of OAM beam propagation through tissue can be relevant is optical wireless communication (OWC) with medical implants. Understanding the effect of OAM beam order on tissue permeability can be of vital importance.
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