Scattering limits the acquisition of object information and reduces the probe depth. Imaging correlography method utilizing scattering light has shown its advantage in visualization deep through dynamic multiple scattering medium. However, there is a lack of boundary condition to use it specifically. Here, we propose a new criterion for imaging correlography based on optical properties of dynamic multiple scattering media. The impact from dynamic multiple scattering medium on imaging correlography model is excavated in depth. Furthermore, the connection between the optical thickness of the medium and the quality of quantitative reconstruction is established. The results show that the imaging depth is predictable. This work has shown promise in the extending applications of imaging correlography method, and paving the way for deep bioimaging.

散射限制了对象信息的获取并减小了探查深度。利用散射光的成像相关成像方法已经显示出其在通过动态多重散射介质进行深层可视化方面的优势。但是，缺乏专门使用它的边界条件。在这里，我们提出了一种基于动态多重散射介质光学特性的成像相关标准。深入挖掘了动态多重散射介质对成像相关成像模型的影响。此外，在介质的光学厚度和定量重建质量之间建立了联系。结果表明，成像深度是可预测的。这项工作在成像相关成像方法的广泛应用中显示出了希望，并为深层生物成像铺平了道路。