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    This study introduces a new random phase screen model that accurately simulates ballistic light in scattering media. The improved model offers more realistic optical properties and computational flexibility for photonics research.

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    Area of Science:

    • Optics and Photonics
    • Computational Physics

    Background:

    • Conventional random phase screen (RPS) models do not account for ballistic light in multiple-scattering media.
    • Accurate modeling of light propagation is crucial for understanding complex optical phenomena.

    Purpose of the Study:

    • To develop a redesigned RPS model that incorporates ballistic light.
    • To enhance the realism of optical simulations for scattering media.
    • To provide a flexible model balancing accuracy, speed, and memory usage.

    Main Methods:

    • Monte Carlo simulation was used to redesign the angular spectrum of the random phase screen.
    • An assumption was made that a single screen represents all scattering events between adjacent screens.
    • The proposed model was validated through three distinct examples.

    Main Results:

    • The redesigned RPS model demonstrates more realistic attenuation of ballistic light compared to conventional models.
    • The model accurately predicts the evolution of beam profiles in scattering media.
    • The angular memory effect is realistically represented by the proposed model.

    Conclusions:

    • The new RPS model offers superior accuracy and realism for simulating light propagation in scattering media.
    • The model's tunable screen spacing allows for a flexible trade-off between computational resources and accuracy.
    • This advancement is significant for applications in optical imaging and material science.