What effect may Compton interaction produce on images during radiation exposure?

Compton interaction can lead to the production of gray fog on images during radiation exposure. This phenomenon occurs when X-rays or gamma rays collide with matter, such as tissues or imaging detectors, and scatter. As the photons scatter, they can produce unwanted secondary radiation that adds a level of noise or fog to the image, resulting in a reduced contrast between structures.

This gray fog decreases the overall image quality, making it harder for radiologists or technicians to distinguish between different tissues or abnormalities. The scattering effect obscurely adds density to the image without contributing useful diagnostic information. Understanding this effect is essential in fields such as radiology and medical imaging, where maintaining image quality is critical for accurate diagnosis and treatment planning. Other options, such as increased clarity, color distortion, or sharp contrast, do not accurately reflect the common negative impact of Compton interactions on image quality.