Which detector type is suitable for high-resolution gamma spectroscopy due to its energy resolution but requires cooling?

• A. Ionization chamber
• B. Geiger-Muller counter
• C. Semiconductor detectors
• D. Scintillation detectors

Answer: (C)

For high-resolution gamma spectroscopy you want to measure the energy of each gamma photon very precisely. Semiconductor detectors, especially high-purity germanium detectors, achieve this by converting the gamma energy directly into an electrical signal with very small statistical fluctuations, so the resulting energy peaks are sharp and well defined. To keep that precision, the detector must be cooled to suppress thermal noise and leakage current that would blur the peaks, typically down to cryogenic temperatures around 77 kelvin. Other detectors either mainly count events without providing detailed energy information—like ionization chambers and Geiger-Muller counters—or offer lower energy resolution, as scintillation detectors do, even though they can operate at room temperature. Thus, the combination of excellent energy resolution and the need for cooling makes semiconductor detectors the best fit for high-resolution gamma spectroscopy.