Discusses the application of Monte Carlo methods in thermal radiation analysis, focusing on probability functions and numerical integration techniques.
Discusses the radiative properties of particles, focusing on Rayleigh and Mie scattering theories and their applications in understanding light behavior.
Explores radiative heat transfer through surface properties like emissivity, absorptivity, reflectivity, and transmissivity, emphasizing their significance in heat transfer applications.
Explores coherence and interferometry principles, including statistical optics, autocorrelation functions, and optical coherence tomography applications.
Explores emissivity, absorptivity, and reflectivity of surfaces, including spectral and directional properties, laws of reciprocity, and practical examples.
