Statistics of photon penetration depth in diffusive media

The study of photon migration through highly scattering media opens the way to the non-invasive investigation of biological tissues well below the skin surface. When the medium is addressed in reflectance geometry, a key issue is to maximize the depth reached by migrating photons. By exploiting the Diffusion Approximation of the Radiative Transfer Equation, we calculated the time-resolved and continuous-wave probability density functions for the maximum depth reached by detected photons, for both a homogeneous and a layered laterally-infinite diffusive slab. From the probability density functions it is possible to calculate the mean value of the maximum depth at which detected photons have undergone scattering events.

Statistics of photon penetration depth in diffusive media / Spinelli L.; Farina A.; Binzoni T.; Torricelli A.; Pifferi A.; Martelli F.. - In: PROGRESS IN BIOMEDICAL OPTICS AND IMAGING. - ISSN 1605-7422. - ELETTRONICO. - 10059:(2017), pp. 100590X-1-100590X-8. ( SPIE BiOS usa 28 January - 2 February 2017) [10.1117/12.2252367].

Statistics of photon penetration depth in diffusive media

Spinelli L.;Farina A.;Binzoni T.;Torricelli A.;Pifferi A.;Martelli F.^Supervision

2017

Abstract

The study of photon migration through highly scattering media opens the way to the non-invasive investigation of biological tissues well below the skin surface. When the medium is addressed in reflectance geometry, a key issue is to maximize the depth reached by migrating photons. By exploiting the Diffusion Approximation of the Radiative Transfer Equation, we calculated the time-resolved and continuous-wave probability density functions for the maximum depth reached by detected photons, for both a homogeneous and a layered laterally-infinite diffusive slab. From the probability density functions it is possible to calculate the mean value of the maximum depth at which detected photons have undergone scattering events.

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	Data di pubblicazione
	
				2017
			
	Titolo del volume degli atti
	
				Progress in Biomedical Optics and Imaging - Proceedings of SPIE
			
	Rivista
	
				PROGRESS IN BIOMEDICAL OPTICS AND IMAGING
			
	Titolo del congresso
	
				SPIE BiOS
			
	Luogo del congresso
	
				usa
			
	Data del congresso
	
				28 January - 2 February 2017
			
	Codice ONU Sustainable Development Goals (SDG)
	
				Goal 3: Good health and well-being for people
			
	Tutti gli autori
	
						Spinelli L.; Farina A.; Binzoni T.; Torricelli A.; Pifferi A.; Martelli F.
					
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				4a - Articolo in atti di congresso

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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/1194432

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