3D Simulation of Brillouin Scattering Signal Variation with Temperature

This simulation utilizes MATLAB to model how Brillouin scattering signals evolve with changing temperature parameters. The implementation involves creating temperature-dependent algorithms that simulate the physical behavior of Brillouin scattering, where key parameters like frequency shift and intensity are programmed to respond to thermal variations. Through this simulation process, we can observe the characteristic trends of Brillouin scattering signals as temperature increases, including changes in spectral features and signal amplitude. The code typically employs matrix operations for 3D data representation and may include functions for temperature parameter sweeping, signal processing algorithms for scattering simulation, and visualization tools for 3D trend analysis. This simulation experiment provides deeper insights into the relationship between Brillouin scattering phenomena and temperature variations, offering valuable references and guidance for research and applications in related fields such as optical sensing and material characterization.