Accelerated reverse-path Monte Carlo model to simulate fluorescence in layered tissue

Johannes Swartling; Stefan Andersson-Engels; Annika M. K. Enejder; Antonio Pifferi

doi:10.1364/BIO.2002.TuF5

Biomedical Topical Meeting
(Optica Publishing Group, 2002),
paper TuF5
•https://doi.org/10.1364/BIO.2002.TuF5

Accelerated reverse-path Monte Carlo model to simulate fluorescence in layered tissue

Johannes Swartling, Stefan Andersson-Engels, Annika M. K. Enejder, and Antonio Pifferi

Biomedical Topical Meeting 2002

Miami Beach, Florida United States
7–10 April 2002
ISBN: 1-55752-702-4

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Modeling and Optical Properties (TuF)

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J. Swartling, S. Andersson-Engels, A. M. K. Enejder, and A. Pifferi, "Accelerated reverse-path Monte Carlo model to simulate fluorescence in layered tissue," in Biomedical Topical Meeting, (Optica Publishing Group, 2002), paper TuF5.

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Abstract

A time-efficient Monte Carlo model for time-resolved fluorescence from layered tissue was developed. The computation time was reduced more than two orders of magnitude by reversing the photon paths in the computation of the fluorescence light.

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