What happens when the quality factor spatial frequency is increased?

The quality factor of spatial frequency relates to the resolution and detail in imaging systems, particularly in fluoroscopy and radiography. When spatial frequency increases, it indicates a higher number of line pairs per unit distance, which correlates with better image resolution. This means that the system can distinguish finer details in the image.

As spatial frequency increases, the number of line pairs per millimeter (which directly relates to detail and clarity) also increases. Therefore, if the quality factor is increased, one can expect better image resolution, not that the object size increases or the number of photons increases.

While increased spatial frequency does lead to improved resolution, it includes the phenomenon where light spread decreases. Higher spatial frequencies result from better modulation of light and image details, indicating less scattering or blurring in the image.

Thus, when the quality factor spatial frequency is increased, it directly influences the clarity and detail of the fluoroscopy images, and the correct context here ties into the linear aspect of elucidating fine structures which is represented by increased number of line pairs per millimeter.