Relation between fluence rate and mean photons pathlengths: an alternative option for Monte Carlo-based calculations of fluence

European Conference on Biomedical Optics Pub Date : 2023-08-09 DOI:10.1117/12.2670936

F. Tommasi, A. Sassaroli, L. Fini, S. Cavalieri, Ernesto Pini, L. Pattelli, F. Martelli

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Abstract

Usually, in biomedical optics, the average photon fluence rate, evaluated in a subvolume of a propagating medium, is obtained by Monte Carlo simulations by calculating the power deposited by photons absorbed in the subvolume. We propose an alternative method based on evaluating the average path length traveled by all photons injected within the subvolume. Application examples are given. This method also works for a zero absorption coefficient and for a nonconstant spatial distribution of the absorption coefficient within the subvolume. The proposed approach is a re-visitation of a well-known method applied to nuclear and radiation physics. The results obtained show that a potential advantage of the proposed method is that it can improve the convergence of Monte Carlo simulations. Indeed, when calculating the fluence in a region of interest with the proposed method, all photons passing through the region are considered. Whereas with the traditional approach, only absorbed" photons are considered. In the latter case, this can produce a poorer Monte Carlo statistic for the same number of photons launched.

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通量率与平均光子路径长度之间的关系:基于蒙特卡罗的通量计算的另一种选择

通常，在生物医学光学中，通过蒙特卡罗模拟，通过计算在子体积中吸收的光子沉积的功率来计算传播介质的子体积中的平均光子通量率。我们提出了一种基于评估在子体积内注入的所有光子的平均路径长度的替代方法。给出了应用实例。该方法也适用于零吸收系数和吸收系数在子体积内的非恒定空间分布。所提出的方法是对应用于核物理和辐射物理的一种著名方法的重新审视。结果表明，该方法的一个潜在优点是可以提高蒙特卡罗模拟的收敛性。事实上，当用所提出的方法计算感兴趣区域的影响时，所有通过该区域的光子都被考虑在内。而传统方法只考虑被吸收的光子。在后一种情况下，对于发射的光子数量相同，这会产生较差的蒙特卡罗统计量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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European Conference on Biomedical Optics

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