Large amounts of smoke generated during combustion processes reduce the visible distance, thereby hindering evacuationoperations, if necessitated. The mechanism by which smoke interacts with light depends on the composition and size ofthe particles constituting the smoke. To ensure evacuation safety, analyzing the main components of smoke and particlesizes that affect light extinction is crucial. In this experimental study, the specific optical density and particle sizedistribution of smoke with radiant heat flux from an ISO 5659-2 smoke density chamber for Polymethyl methacrylate(PMMA) and Polycarbonate (PC) were measured using a scanning mobility particle sizer (SMPS). Raman analysis wasperformed to investigate the main components of the smoke particles. During the flame combustion process, the lightextinction of 700- to 1000-nm particles reached its maximum, and the specific optical density increased rapidly. However,in decomposition combustion, the size of the particles, at which light extinction reached its maximum gradually increaseddepending on the intensity of radiant heat and exposure time.