Understanding alpha radiation requires distinguishing between two key concepts:
1. Measuring Alpha Radiation
2. Detecting the Presence of Alpha Radiation
Measuring Alpha Radiation
- Vacuum Conditions Necessary: Accurately measuring alpha radiation can only be achieved under vacuum conditions using specialized stationary equipment.
- Lack of Portable Measurement Devices: There are no portable devices capable of measuring alpha radiation because the process requires a vacuum environment and meticulous sample preparation.
Detecting the Presence of Alpha Radiation
- Detection Methods:
- Geiger Counters with Special Windows: Alpha radiation can be detected using Geiger-Müller counters equipped with thin mica windows that allow alpha particles to enter the detector.
- Specialized Scintillation Equipment: Expensive and specialized scintillation detectors, such as zinc sulfide screens, can also detect alpha particles effectively.
- Professional Practice:
- Rare Use of Alpha Detectors: Professionals often avoid using alpha-sensitive detectors routinely because alpha-emitting isotopes are typically identified through secondary indicators rather than direct detection.
Secondary Indicators of Alpha Emitters
- Weak X-Ray Emissions:
- Associated Emissions: Most isotopes that emit alpha radiation also emit weak X-rays.
- Detection Challenges: These X-rays are nearly undetectable with standard Geiger counters but are effectively detected by scintillation devices.
- Decay Chains Including Beta and Gamma Emitters:
- Sequential Decay: Alpha emitters often have decay chains that produce beta and gamma radiation, which are more easily detected with conventional instruments.
Shielding and Penetration of Alpha Radiation
- Low Penetration Power:
- Shielding Materials: Alpha particles are easily shielded by materials as thin as ordinary paper or even the outer layer of human skin.
- Implications for Detection:
- Alpha Detectors: Due to their low penetration ability, alpha detectors may register no activity if alpha particles are obstructed by minimal barriers.
- Scintillation Detectors Sensitive to X-Rays: Scintillation devices can detect the weak X-rays associated with alpha decay, providing an indirect method of identifying alpha-emitting isotopes.
Summary: Accurate measurement of alpha radiation requires specialized, non-portable equipment operating under vacuum conditions, making it impractical for field use. Detection, rather than measurement, is typically performed using Geiger counters with specialized windows or advanced scintillation detectors. However, professionals often rely on detecting secondary emissions like weak X-rays, beta particles, or gamma rays associated with alpha-emitting isotopes, due to the ease of shielding alpha particles and the practicality of detecting these secondary indicators.