How do direct conversion DR detectors differ from indirect conversion DR detectors?

• A. Direct conversion converts X-rays to heat.
• B. Direct conversion converts X-rays to light; indirect converts to electricity.
• C. Direct conversion uses scintillators to convert X-rays to light, then to electricity.
• D. Direct conversion converts X-rays directly into electricity (e.g., amorphous selenium); indirect converts X-rays to light in a scintillator then to electricity.

Answer: (D)

Direct conversion DR detectors convert X-ray energy directly into an electrical signal using a photoconductive layer (usually amorphous selenium). There’s no light intermediate in this path. Indirect conversion DR detectors first convert X-rays to visible light with a scintillator (such as CsI or gadolinium oxysulfide), and then the light is detected and converted to electricity by a photodiode array. That two-step process can introduce light spread within the scintillator, which can affect spatial resolution, whereas direct conversion preserves more of the original image sharpness by avoiding that diffusion. The described mechanism—X-rays turning directly into electricity in direct conversion, versus X-rays turning into light then into electricity in indirect conversion—precisely captures the difference.