Computational Scattering Analysis for Various Geometries

This program specializes in computing electromagnetic scattering characteristics of objects with various geometrical configurations. It implements numerical algorithms such as Method of Moments (MoM) or Finite-Difference Time-Domain (FDTD) methods to solve Maxwell's equations, enabling researchers to analyze wave-object interactions through customizable shape parameters and material properties. The core functionality includes calculating radar cross-sections, near-field distributions, and far-field patterns through modular code architecture. Besides research applications, the program serves educational purposes by visualizing electromagnetic wave reflection and refraction phenomena on different surfaces, making it suitable for physics demonstrations. With its extensible object-oriented design, the tool finds applications across multiple domains including astrophysics (cosmic dust scattering), telecommunications (antenna design), and optical engineering (nanoparticle scattering analysis). The codebase features configurable simulation parameters and supports both frequency-domain and time-domain analysis approaches.