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Main Authors: Carne, Daniel, Peoples, Joseph, Guo, Ziqi, Feng, Dudong, Han, Zherui, Liu, Xiaojie, Ruan, Xiulin
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2409.00165
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author Carne, Daniel
Peoples, Joseph
Guo, Ziqi
Feng, Dudong
Han, Zherui
Liu, Xiaojie
Ruan, Xiulin
author_facet Carne, Daniel
Peoples, Joseph
Guo, Ziqi
Feng, Dudong
Han, Zherui
Liu, Xiaojie
Ruan, Xiulin
contents FOS, which means light in Greek, is an open-source program for Fast Optical Spectrum calculations of nanoparticle media. This program takes the material properties and a description of the system as input, and outputs the spectral response including the reflectance, absorptance, and transmittance. Previous open-source codes often include only one portion of what is needed to calculate the spectral response of a nanoparticulate medium, such as Mie theory or a Monte Carlo method. FOS is designed to provide a convenient fully integrated format to remove the barrier as well as providing a significantly accelerated implementation with compiled Python code, parallel processing, and pre-trained machine learning predictions. This program can accelerate optimization and high throughput design of optical properties of nanoparticle or nanocomposite media, such as radiative cooling paint and solar heating liquids, allowing for the discovery of new materials and designs. FOS also enables convenient modeling of lunar dust coatings, combustion particulates, and many other particulate systems. In this paper we discuss the methodology used in FOS, features of the program, and provide four case studies.
format Preprint
id arxiv_https___arxiv_org_abs_2409_00165
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle FOS: A fully integrated open-source program for Fast Optical Spectrum calculations of nanoparticle media
Carne, Daniel
Peoples, Joseph
Guo, Ziqi
Feng, Dudong
Han, Zherui
Liu, Xiaojie
Ruan, Xiulin
Computational Physics
Optics
FOS, which means light in Greek, is an open-source program for Fast Optical Spectrum calculations of nanoparticle media. This program takes the material properties and a description of the system as input, and outputs the spectral response including the reflectance, absorptance, and transmittance. Previous open-source codes often include only one portion of what is needed to calculate the spectral response of a nanoparticulate medium, such as Mie theory or a Monte Carlo method. FOS is designed to provide a convenient fully integrated format to remove the barrier as well as providing a significantly accelerated implementation with compiled Python code, parallel processing, and pre-trained machine learning predictions. This program can accelerate optimization and high throughput design of optical properties of nanoparticle or nanocomposite media, such as radiative cooling paint and solar heating liquids, allowing for the discovery of new materials and designs. FOS also enables convenient modeling of lunar dust coatings, combustion particulates, and many other particulate systems. In this paper we discuss the methodology used in FOS, features of the program, and provide four case studies.
title FOS: A fully integrated open-source program for Fast Optical Spectrum calculations of nanoparticle media
topic Computational Physics
Optics
url https://arxiv.org/abs/2409.00165